]> COSMO ontology, Version 0.65-945. Last edit 20100501 by Patrick Cassidy rev 849 is modularized Has 21 top-level classes under 'Thing' Uses elements of the OpenCyc OWL version 0.78, SUMO, BFO and DOLCE ontologies, as well as elements created specifically for COSMO. Parts of COSMO were derived from or closely aligned with elements of other public ontologies such as OpenCyc, SUMO, and BFO,in order to ease the translation of COSMO ontologies to those other structures, but the conceptual structure of COSMO (hierarchy and relations) is too different from those other ontologies to allow simplistic automatic translation; it is anticipated that translation will be possible, but will require 'bridging axioms' to convert the terms and syntax of COSMO to those of any other ontology, and vice-versa. The meanings of the COSMO elements must be interpreted only from the structure of the COSMO ontology and from the full COSMO documentation. According to the documentation of those other ontologies, they are freely usable by the public, though they remain copyrighted by their originators (more detail below). No copyright restrictions are attached to materials added in the COSMO project, therefore the only copyright restrictions for use of this ontology are those placed by the developers of the OpenCyc, SUMO, and BFO on parts derived directly from those works. Those derived parts will include some of the labels, and parts of the documentation. Relation of COSMO to other ontologies: The COSMO ontology has a structure and basic viewpoint that differs in some significant parts from that of the ontologies from which it has derived materials, and the main parts of the hierarchical structure and relations are not significantly derived from any of the referenced ontologies. Most basically, the representations were intended to adhere as closely as possible to linguistic intuitions about the meaning and usage of English terms, while specifying the meanings in a logically precise manner. Every element added to COSMO is individually evaluated for its utility and validity within the conceptual structure of the COSMO ontology, and is not derived or adopted solely or mainly on the basis of the appearance of a similar concept in another ontology. Certain individual subtype relations are similar to those in OpenCyc or SUMO; but because the basic hierarchical structure of COSMO differs from the other ontologies, logical inference using these relations will arrive at conclusions that cannot be aligned directly with either OpenCyc or SUMO. No simplistic mapping between COSMO and these other ontologies is likely to enable accurate inference. The documentation derived from OpenCyc and SUMO is provided as a means to reference similar concepts in those other ontologies, and to explain similarities and differences, for the convenience of those who are familiar with those ontologies. Contents derived from OpenCyc and SUMO are copyrighted and made freely available for public use under the terms found in the documentation for those works (see below). Materials added specifically for the COSMO project are not copyrighted. The contents derived from SUMO are copyrighted by the IEEE and made freely available for public use. For more detail see: see http://www.ontologyportal.org A description of the SUMO project can be found in: Niles, I., and Pease, A. 2001. Towards a Standard Upper Ontology. In Proceedings of the 2nd International Conference on Formal Ontology in Information Systems (FOIS-2001), Chris Welty and Barry Smith, eds, Ogunquit, Maine, October 17-19, 2001. The Contents of the OpenCyc OWL version used in this project are found at: http://www.cyc.com/2004/06/04/cyc OpenCyc materials are copyrighted and licensed for free public use under the GNU 'LGPL' license. The Opencyc documentation reads: ************ OpenCyc copyright notice ****************** Copyright Information OpenCyc Knowledge Base Copyright 2001-2004 Cycorp, Inc., Austin, TX, USA. All rights reserved. OpenCyc Knowledge Server Copyright 2001-2004 Cycorp, Inc., Austin, TX, USA. All rights reserved. Other copyrights may be found in various files. The OpenCyc Knowledge Base The OpenCyc Knowledge Base consists of code, written in the declarative language CycL, that represents or supports the representation of facts and rules pertaining to consensus reality. OpenCyc is licensed using the GNU Lesser General Public License, whose text can also be found on this volume. The OpenCyc CycL code base is the "library" referred to in the LGPL license. The terms of this license equally apply to renamings and other logically equivalent reformulations of the Knowledge Base (or portions thereof) in any natural or formal language. See http://www.opencyc.org for more information. ************ OpenCyc copyright notice ****************** Definitions described as coming from the 'Random House Webster' (RHW) refer to the Electronic Dictionary 'Random House Webster's Unabridged Dictionary' on CD (2002) from Random House, Inc. and Multimedia 2000 Inc.(a paperback version is still available at: http://www.randomhouse.com/category/reference/) Some of the entries have annotation references to WordNet ('wordnet' and 'wnsense' relations). The WordNet version referenced is WordNet 2.1 (see http://wordnet.princeton.edu/). Because the WordNet hierarchy differs from that of COSMO, these pointers are only informative, and may not be useful for accurate automatic conversion of WordNet sense tags to the corresponding senses in COSMO, but the utility of this mapping needs to be investigated. InheritableType is a specialization of the Protege owl:Class which is used to identify those metatypes which, when specified as the parent Type for some class (Type) in the ontology, will also by implication be the parent Type for all subtypes of any Type explicitly designated as an instance of any subtype of 'InheritableType'. This is a primitive mechanism to permit translation of this ontology among various formats, while permitting the use of reasoning engines which require that arguments to relations, if restricted as to Type, be instances of some specified Type. There are some ontologies, such as SUMO, using first-order logic, which permit one to specify that an argument to a relation must be a *subtype* of some Type in the ontology, rather than an *instance* of some Type. OWL and some other reasoning engines do not permit that kind of restriction. For convenience, to allow this ontology to be used in multiple reasoning engines and to be automatically translated into multiple formats, this metatype is provided and so that one can avoid having to specify the metatype instance of every Type that is to be used as an argument to a relation. When using this ontology in an inference engine that requires explicit types, it will be necessary to add the InheritableType as a Type of each subtype of any Type that is specified to be an instance of such an inheritable type. That addition will have to be one in a preprocessing stage before using that inference engine. An axiom may be added to an ontology using FOL to specify that all subtypes of a Type ?T that is an instance of an InheritableType ?MT will also be instances of that InheritableType: (=> (and (isanInstanceOf ?T ?MT) (isaSubclassOf ?MT InheritableType)) (forall (?ST) (=> (isaSubclassOf ?ST ?T) (isanInstanceOf ?ST ?MT)))) This axiom will permit the ontologist to avoid specifying the metatype for every subtype of the root type of that Type tree, in those ontology implementations that can use FOL. 'LogicalFunctionType' is a metaclass used to signal that a particular type (class) represents a concept that needs some functional procedure to proeprly represent. This is similar in use to the type 'LogicalFunction', but it is used to label types rather than instances. LogicalFunctions in COSMO are ontology elements that are either vague or context-dependent, and are use to represent interpretations of information that is specified with vague or context-dependent terms. Where possible, the LogicalFunction may be implemented by a procedure that attempts to narrow the range of meanings, but if that is not possible, the default vague meanings (being a set of possible meanings) is used in the representation. RoleType is a metaclass used as the Type restriction on certain relations that take subclasses of Role as their argument. 'QuantifierType' is a metaclass used as the Type restriction on certain relations that take subclasses of Quantifier as their argument. AttributeValueType is a metaclass used as the Type restriction on certain relations that take subclasses of AttributeValue as their argument. a metatype that can be used as an argument restriction for relations that take a subtype of Difference as one of their arguments.. QualitativeAttributeType is a metatype which is a specialization of the Protege owl:Class that can serve as type for taste attributes and an argument restriction for some relations on QualitativeAttributeValues This is a primitive mechanism to accommodate OWL limitations. QuantitativeAttributeType is a metatype which is a specialization of the Protege owl:Class that can serve as type for QuantitativeAttributes (length, mass), and an argument restriction for various relations on AttributeType types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. IntensiveAttributeValueType is a metaclass used as the Type restriction on certain relations that take subclasses of IntensiveAttributeValue as their argument. @ToDo: values should be disjoint with PertainingAttributeValues,but as yet (r915) no systematic search to add type to PertainingAttributeValues. PertainingAttributeValueType is a metaclass used as the Type restriction on certain relations that take subclasses of PertainingAttributeValue as their argument. @ToDo: values should be disjoint with PertainingAttributeValues,but as yet (r915) ,but as no systematic search to add type to PertainingAttributeValues. a metatype that can be used as an argument restriction for relations that take a subtype of Event as one of their arguments.. a metatype that can be used as an argument restriction for relations that take a subtype of Event as one of their arguments. This is used specifically for the restriction on 'InsuranceAgreement'. Each instance of InsuredEventType is a type of Event that commonly is insured against in some InsuranceAgreement. Many kinds of Events *can* in principle be insured against, but this metatype is for those types of Events that *commonly* are insured against, or actually *have been* insured against, in some aplication that uses this ontology. ObjectType is a metatype which is a specialization of the Protege owl:Class that can serve as type for objects, whether abstract or physical, and an argument restriction for various relations on Object types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. 'AccountType' is a metatype which is a specialization of 'ObjectType'; it can serve as type for objects, whether abstract or physical, and an argument restriction for various relations on Object types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. 'TimeIntervalType is a metatype which is a specialization of the Protege owl:Class that can serve as type for TimeIntervals, and can and an argument restriction for various relations on TimeInterval types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. PhysicalObjectType is a metatype which is a specialization of the Protege owl:Class that can serve as type for physical objects and an argument restriction for various relations on Physical Object types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. RuleType is a metatype which is a specialization of 'ObjectType' that can serve as type for Rules (laws, theories) and an argument restriction for various relations on Rule types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. 'PropositionType' is a metatype which is a specialization of the Protege owl:Class that can serve as type for Propositions and an argument restriction for various relations on Propositions types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. 'hasPluralForm' relates a COSMO entry to an English noun or word combination that is the closest lexicalized representation of the meaning;this should be used only if there is also a singular form represented.. 'hasPluralForm' relates a COSMO entry to an English noun or word combination that is the closest lexicalized representation of the meaning. Other forms such as plurals and infiinitives and past tenses are represented by other AnnotationProperty's. This is used only occasionally. Globally unique identifier, fromOpenCyc 0.78. NOTE that this is a formatted string having 32 alphanumberic characters with embedded hyphens, though it is represented (temporarily) as a simple string here. Another form of 'unique identifier' has 16 characters, and is represented in COSMO as an AbstractString which is a subtype of Identifier. See 'UniqueIdentifier16' Globally Unique ID Points to the Chinese character string (Mandarin, traditional characters) closest in meaning to the intended meaning of the element. See also 'chins' (simplified characters) and 'chinp' (pinyin) for the equivalent simplified and Pininy representations. Chinese-Traditional Points to the Chinese character string (Mandarin, simplifies characters) closest in meaning to the intended meaning of the element. See also 'chint' (traditional characters) and 'chinp' (pinyin) for the equivalent simplified and Pininy representations. Chinese-Simplified Points to the Pinyin representation of the Chinese character string closest in meaning to the intended meaning of the element. See also 'chins' (simplified characters) and 'chint' (traditional characters) for the equivalent simplified and traditional character representations. Chinese-Pinyin Each class of a ColorAttribute forms a region with more specific classes of ColorAttribute forming subregions.. ElementType is a metatype which is a specialization of the Protege owl:Class that can serve as type for physical substances and an argument restriction for the relations on chemical elements. This is a primitive mechanism to accommodate OWL limitations on relation arguments. MetalType is a metatype which is a specialization of the Protege owl:Class that can serve as type for Metals and an argument restriction for the relations on Metals. This is a primitive mechanism to accommodate OWL limitations on relation arguments. a metatype that can be used as an argument restriction for relations that take a subtype of Context as one of their arguments. IT can also be used for types for which namespace prefixes would be convenient to label the instances, such as 'AtomicSymbol'.. A collection of collections and a specialization of #$ChemicalSubstanceType. Each instance of #$ChemicalCompoundTypeByChemicalSpecies is a specialization of #$PartiallyTangible whose instances are defined _only_ by their chemical composition - not by their physical state or any other property. Instances of #$ChemicalCompoundTypeByChemicalSpecies are collections whose instances are completely uniform with each other in terms of chemical structure, e.g., #$Water, #$Caffeine, and #$IronOxide. This collection does not include the chemical elements - such as #$Carbon and #$Oxygen, since there can be multiple types that molecules can be formed out of a single element, e.g. O2 and #$Ozone. Use the broader collection, #$ChemicalSubstanceType, for substances which have a general chemical specification, that is, whose instances do not have exactly the same chemical composition but fall within certain specifications, e.g., #$DNAStuff. bd40a83e-da13-41d6-9955-dc363ad8ec02 VitalityAttributeType is a metatype which is a specialization of the Protege owl:Class that can serve as type for attributes specifyuing vitality (alive, dead) and an argument restriction for some relations on QualitativeAttributes. This is a primitive mechanism to accommodate OWL limitations. AttributeTypeType is a metatype which is a specialization of the Protege owl:Class that can serve as type for AttributeTypes (length, mass), and an argument restriction for various relations on AttributeType types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. a metatype that can be used as an argument restriction for relations that take a subtype of Agent as one of their arguments. All Organisms, plant, animal, microorganism, are of AgentType. MeasurableQuantityType is a metatype which is a specialization of the Protege owl:Class that can serve as type for MeasurableQuantities, whether abstract or physical, and an argument restriction for various relations on MeasurableQuantity types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. ShapeType is a metatype which is a specialization of the Protege owl:Class that can serve as type for shape attributes and an argument restriction for the hasShape relation. This is a primitive mechanism to accommodate OWL limitations. NOTE: as of v0.50, both shape attributes and specifically shaped objects can be instances of ShapeType. @ToDo - this should probably be differentiated. a metatype that can be used as an argument restriction for relations that take an instance of Pattern as one of their arguments. OrganismObjectType is a metatype which is a specialization of the Protege owl:Class that can serve as type for LifeForms (including LifeForms that are not true Organisms) and an argument restriction for various relations on specific types of organisms. This is a primitive mechanism to accommodate OWL limitations on relation arguments. DeviceType is a metatype which is a specialization of the Protege owl:Class that can serve as type for Devices and an argument restriction for various relations on specific types of Devices. This is a primitive mechanism to accommodate OWL limitations on relation arguments. NOTE that we allow instances of DeviceType to be considered as a type of agent. FastenerType is a metatype which is a specialization of the Protege owl:Class that can serve as type for Fasteners and an argument restriction for various relations on specific Fasteners. This is a primitive mechanism to accommodate OWL limitations on relation arguments. NOTE that we allow instances of DeviceType to be considered as a type of agent. PersonType is a metatype which is a specialization of OrganismType that can serve as type for a Person in its aspect as an animal, rather than a Role, and an argument restriction for various relations on people. This is a primitive mechanism to accommodate OWL limitations on relation arguments. RoleType is a metaclass that is a subclass of both 'PersonType' and 'RoleType'. It is used as the Type restriction on certain relations that take subclasses of HumanRole as their argument. PlantType is a metatype which is a specialization of OrganismType that can serve as type for a Plant. This is a primitive mechanism to accommodate OWL limitations on relation arguments. AnimalType is a metatype which is a specialization of OrganismType that can serve as type for an Animal. This is a primitive mechanism to accommodate OWL limitations on relation arguments. ActionType is a metaclass used as the Type restriction on certain relations that take subclasses of Action as their argument. COSMO note: this metatype has not been used up to v0.54. It includes all actions that need some kind of training beyond mere observation and repetition. Things that need years of training are represented as 'SkilledActivityType'. Inn Chinese, there is a difference in the words used to say one 'knows' how to do somnething, if that thing is learned or not learned (like knowing a person). This seems to be a fundamental and intuitive difference. AN examole is knowing how to speak Chinese. Cyc: This is the collection of activities which must first be learned before they can be performed - i.e., before any role which is a specPred of #$doneBy can be played. be6f173a-9c29-11b1-9dad-c379636f7270 COSMO note: this metatype has not been used up to v0.54. It may be used to help classify actions that require years of training. This differs from the Cyc interpretation. Cyc: This is the collection of collections of activities which require some specialized skill to perform--i.e., to play any role which is a specPred of #$doneBy. So, all skilled activities are learned, but not all learned activities are skilled. For instance, #$WalkingOnTwoLegs is an instance of #$LearnedActivityType but not an instance of #$SkilledActivityType. Since every normal person learns to walk, it requires no special skill. In contrast, #$Juggling is an instance of #$SkilledActivityType, for most people do not know how to juggle. bdb56b97-9c29-11b1-9dad-c379636f7270 CommunicationType is a metaclass used as the Type restriction on certain relations that take subclasses of Communication as their argument. a metatype that can be used as an argument restriction for relations that take a subtype of Feeling as one of their arguments.. a metatype that can be used as an argument restriction for relations that take a subtype of Sign as one of their arguments.. a metatype that can be used as an argument restriction for relations that take a subtype of SystemCondition as one of their arguments.. a metatype that can be used as an argument restriction for relations that take a subtype of AilmentCondition as one of their arguments.. a metatype that can be used as an argument restriction for relations that take a subtype of ValuableThing as one of their arguments.. OrganizationType is a metaclass used as the Type restriction on certain relations that take subclasses of Organization as their argument. A collection of three disjoint collections, #$OrganizationWithBusinessCustomers, #$OrganizationWithIndividualCustomers, and #$OrganizationWithoutCustomers. The #$Organizations that are instances of the collections which are instances of #$OrganizationByClients are distinguished by the types of customers they serve or by their lack of customers (customers being used here in the sense of #$customers). c0861d7f-9c29-11b1-9dad-c379636f7270 TendencyType is a metatype that can be used as an argument restriction for relations that take a subtype of Tendency as one of their arguments. This metaclass is of importance in predicting behaviors over time, and may require probability assignments; therefore is is considered distinct and not a subtype of 'QualitativeAttributeType'.. CapabilityType is a metaclass used as the Type restriction on certain relations that take subclasses of Capability as their argument. LimitationType is a metaclass used as the Type restriction on certain relations that take subclasses of Limitation as their argument. TransportationDeviceType is a metaclass used as the Type restriction on certain relations involving TransportationDevices. MeasureType is a metatype which is a specialization of rdfs:Class that can serve as type for measures and an argument restriction for relations concerning types of measure (Length, Temperature, Color). MeasureType instances may be either AttributeTypes or AttributeValues. It may be better to distingish the two, but as of v. 0.46, the same metaclass is used for the two different aspects of quantitative attributes. This is a primitive mechanism to accommodate OWL limitations on relation arguments. HabitatType is a metatype which is a specialization of the Protege owl:Class that can serve as type for regions or physical areas with particular characteristics, and can serve as an argument restriction for the relation 'hasTypicalHabitat' OrganismTypes. This is a primitive mechanism to accommodate OWL limitations on relation arguments. LifeStageType is a metaclass used as the Type restriction on certain relations that pertain to organisms at particular stages of their life cycle. Instances of 'LifeStageType' are types which may represent time periods (the intervals of time during which an organism is in a specific stage), **or** the organism in that stage. NOTE: this is an unusual usage of metatypes; the instances may be a subtype of one of two disjoint types. (Here, a TimeInterval may implicitly play a 'Role'. @ToDo - can this lead to problems?). The collection of collections of things that are useful in nature. c0c73787-9c29-11b1-9dad-c379636f7270 A specialization of #$ChemicalCompoundTypeByChemicalSpecies. Instances of #$LigandType are collections whose instances are substances capable of surrounding and bonding to a central metal ion, forming a metal complex (or simply complex). In forming a complex, the ligands are considered to coordinate to the metal. 3bc47b54-3937-41d7-9033-bdfc2024a247 OccupationalRoleType is a metaclass used as the Type restriction on certain relations that pertain to Types describing people in occupational roles, such as 'Nurse', 'Firefighter'.. CoveringType is a metatype which is a specialization of the Protege owl:Class that can serve as type for physical objects that are subtypes of 'Covering-Object', and an argument restriction for various relations on CoveringObject types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. ArtifactObjectType is a metatype which is a specialization of the Protege owl:Class that can serve as type for ArtifactObjects and an argument restriction for various relations on ArtifactObject types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. ContainerType is a metatype which is a specialization of the Protege owl:Class that can serve as type for containers and an argument restriction for various relations on container types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. PlantPartType is a metatype which is a specialization of the Protege owl:Class that can serve as type for plant parts and an argument restriction for various relations on parts of plants. This is a primitive mechanism to accommodate OWL limitations on relation arguments. Each instance of 'ServiceType' is a type that represents a service that some perosn performs for another, often for pay. A Service does not have to be performed for pay every time, but must be performed for pay in some cases. TopicType is a metaclass used as the Type restriction on fields of knowledge, whether formal or informal. This type allows assertions about a whole field, as in the relation 'isKnowledgeableAbout'. VolumeType is a metatype which is a specialization of the Protege owl:Class that can serve as type for volume attributes. This is a primitive mechanism to accommodate OWL limitations. a metatype that can be used as an argument restriction for relations that take an instance of a transitive Event (an Event that has a 'patient' role, something acted on) as one of their arguments.. a metatype that can be used as an argument restriction for relations that take a subtype of FunctionalProcess as one of their arguments.. COSMO: a metatype for flowering trees. Cyc: Not itself a species, but a set of species encompassing those that are angiosperms. bd588f16-9c29-11b1-9dad-c379636f7270 A collection of collections and a specialization of #$OrganismClassificationType (q.v.). Instances of #$BiologicalTaxon correspond to ranked categories accepted by biologists for the classification of organisms according to their suspected evolutionary relationships. Such categories change as biologists learn more about the organisms involved and determine that existing classifications are more or less useful. They include all levels of taxons. Specializations of #$BiologicalTaxon include #$BiologicalOrder and #$BiologicalSpecies; instances include #$Marsupial and #$Ape. See also #$BiologicalTaxonType. bd58e2e8-9c29-11b1-9dad-c379636f7270 The collection of biological taxonomic subdivisions (see #$BiologicalTaxon) created below #$BiologicalFamily and above #$BiologicalSpecies. Sometimes, hybrids are possible between different instances of #$BiologicalSpecies that belong to the same #$BiologicalGenus. bd589a9f-9c29-11b1-9dad-c379636f7270 A specialization of #$BiologicalTaxon whose instances are more restrictive than those of #$BiologicalSpecies. Each instance of #$BiologicalSubspecies is a specialization of some instance of #$BiologicalSpecies. Members of different subspecies of the same species can produce fertile offspring by interbreeding; but such offspring are not members of either of the parental subspecies, although they are members of the common species. All instances of a given biological subspecies have significant traits or collections of traits in common that are not shared by all other members of the subsuming species. A #$BiologicalSubspecies is formed by inbreeding of a restricted group of members of the same species. This can happen naturally through geographic isolation or intentionally through controlled reproduction to create, for example, dog breeds or crop strains. c0b6222b-9c29-11b1-9dad-c379636f7270 A GrammaticalType is any structure (word, phrase, phoneme, morpheme) in a NaturalLanguage that, in combination with other structures constitues the grammar of the language, as represented in some grammatical theory of the language. Examples would be 'Subject', 'Verb', 'Object', 'VerbPhrase', etc. a BiologicalSubspecies that is or maintained by human breeding activities. See 'Breeding'. This corresponds to sense 13 of 'breed' in the random House Webster: 13. Genetics. a relatively homogenous group of animals within a species, developed and maintained by humans. This should be a subtype of 'variety' as used in the biological classification sense, but the owl:class (Types) and rdfs:class (Metatypes) hierarchy needs to be kept apart for clarity. Se 'Type' and 'Sort' for more detail on which COSMO type represents which sort of category. Corresponds to noun sense 2 of 'breed' and sense 5 of 'strain' in WordNet: 2. (1) breed, strain, stock - (a special variety of domesticated animals within a species; 'he experimented on a particular breed of white rats'; 'he created a new strain of sheep') breed breed breed2n strain strain5n The collection of biological taxonomic subdivisions below #$BiologicalOrder (or #$BiologicalSuborder) and above #$BiologicalGenus. Especially important in Botanical classification. bd58cb2c-9c29-11b1-9dad-c379636f7270 a metatype that can be used as an argument restriction for relations that take a subtype of PhysiologicalCondition as one of their arguments. NOTE that illness (sickness, disease, ailment) is a subtype of PhysiologicalCondition, and this metatype can be used for relations on types of illness. NOTE that a 'PhysiologicalConditionType' is a subtype of 'ActionType' because it is 'performed' by an Agent, which is an Organism. A specialization of #$FirstOrderCollection (q.v.) whose instances are collections of #$Events. Each instance of #$RepeatedEventType is a collection of events whose instances tend to come in series or to occur at more or less regular intervals. These series or recurrences might be the result of natural phenomena (e.g. the spoutings of Old Faithful), human convention (e.g. the occurrence of #$BaseballInnings within a given game), or a combination of both (e.g. the annual celebration of Oktoberfest). An important specialization of this collection is #$RegularlyRepeatedEventType. See also #$IterativeEvent and #$IterativeEventType. bd5900b9-9c29-11b1-9dad-c379636f7270 A specialization of #$RepeatedEventType (q.v.). Each instance of #$RegularlyRepeatedEventType is a collection of events whose instances typically occur along with other instances of the same event-type at more or less regular intervals. These regular occurrences might be the result of natural phenomena (e.g. the sunrise), human convention (e.g. the execution of a dance step within a given dancing event), or a combination of both (e.g. the annual celebration of Oktoberfest). Other examples of #$RegularlyRepeatedEventType are #$OlympicGames, #$AcademicTerm, and #$TakingABreath. See also #$IterativeEvent and #$IterativeEventType. bd590072-9c29-11b1-9dad-c379636f7270 A LexicalType is any structure (word, phrase, phoneme, morpheme) in a NaturalLanguage that, has a distinctie pattern of letters in its alphabetical representation. An example would be an Abbreviation. BiologicalSpecies is a metatype that can be used as an argument restriction for relations that take an instance of biological species as one of their arguments. Cyc: An instance of #$BiologicalTaxonType. Each instance of #$BiologicalSpecies is the most general taxon from which two breeding organisms of appropriate sexes can conceivably produce fertile offspring, or, in the case of asexual reproduction, is conventionally defined. Members of different species of animals cannot produce fertile offspring by interbreeding. If there are only two breeds of a given species and one breed becomes extinct, the second breed by virtue of that fact becomes an instance of #$BiologicalSpecies - since the only organisms instances can breed with to produce fertile offspring are, at that point, members of that collection. An instance of #$BiologicalSpecies has members who all have significant traits in common, and members of each biological species have other members as parents. Exceptions occur when a species is conventionally defined to start since parenthood could conceivably be traced back billions of years, yet new species came into existence. In biological taxonomy, related species are grouped into a particular instance of #$BiologicalGenus. Some genera have only a single species, but they remain different taxons. SUMO: The Class of all biological species, i.e. the class of all classes of Organism whose instances can interbreed. Corresponds to noun sense 1 of 'species' in WordNet: 1. (27) species - ((biology) taxonomic group whose members can interbreed) bd58caeb-9c29-11b1-9dad-c379636f7270 COSMO note: in COSMO, 'EndangeredSpecies' is a metatype whose instances are BiologicalSpecies whose survival as aspecies is at risk. SUMO: EndangeredSpecies is the subclass of Organism that includes plants and animals that are in danger of extinction from destruction of individuals or of habitat. This is a primitive mechanism to accommodate OWL limitations on relation arguments. RegionType is a metatype which is a specialization of the Protege owl:Class that can serve as type for regions, and an argument restriction for various relations on Region types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. MeasuringDeviceType is a metatype which is a specialization of the Protege owl:Class that can serve as type for MeasuringDevices, and an argument restriction for various relations on MeasuringDevice types. This is a primitive mechanism to accommodate OWL limitations on relation arguments. SpecificationType is a metatype which is a specialization of the Protege owl:Class that can serve as type for specifications (plays, plans, games) and an argument restriction for the isAnExecutionOf relation. This is a primitive mechanism to accommodate OWL limitations on relation arguments. SportType is a metatype which is a specialization of the Protege owl:Class that can serve as type for specifications of sports (games) and an argument restriction for the isAnExecutionOf relation. This is a primitive mechanism to accommodate OWL limitations on relation arguments. GameType is a metatype which is a specialization of the Protege owl:Class that can serve as type for games and an argument restriction for the isAnExecutionOf relation. This is a primitive mechanism to accommodate OWL limitations on relation arguments. PharmaceuticalType is a metaclass used as the Type restriction on certain relations that pertain to more or less well-defined chemical substances that are used officially (in some society) as a medicine.. a metatype that can be used as an argument restriction for relations that take an instance of FacialHair as one of their arguments.. OccupationType is a metaclass used as the Type restriction on certain relations that pertain to Occupations, such as 'isTheOccupationOfa' and 'practicesOccupation'. NOTE that this must not be used as the Type of people who have ocupations. For that, use 'OccupationalRoleType'. Each instance of MoneyTenderType denotes a form in which some quantity of Money may be represented. A collection of collections. Each instance of #$MoneyTenderType is a collection of objects of a type commonly offered in payment for goods, services, fees, wage-work, and so on. Notable instances of #$MoneyTenderType include #$Currency, #$CreditCard, and #$Check-TenderObject. bd58d8e4-9c29-11b1-9dad-c379636f7270 The collection of biological taxonomic subdivisions more specific than #$BiologicalClass but more general than #$BiologicalOrder. bd58cba7-9c29-11b1-9dad-c379636f7270 SubstanceShapeType is a metatype which is a specialization of the Protege owl:Class that can serve as type for physical substances in a particular shape 'SubstanceInaSpecificShape' and an argument restriction for the isaFormOfSubstance relation. This is a primitive mechanism to accommodate OWL limitations on relation arguments. TasteType is a metatype which is a specialization of the Protege owl:Class that can serve as type for taste attributes and an argument restriction for the hasTaste relation. This is a primitive mechanism to accommodate OWL limitations. LocationMeasureType is a metatype which is a specialization of the Protege owl:Class that can serve as type for physical substances and an argument restriction for the hasLocation relation. This is a primitive mechanism to accommodate OWL limitations on relation arguments. MoleculeType is a metatype which is a specialization of the Protege owl:Class that can serve as type for classes of individual physical molecules and an argument restriction for the isaMoleculeOfSubstance relation. This is a primitive mechanism to accommodate OWL limitations on relation arguments. EmittableObjectType is a metatype which is a specialization of the Protege owl:Class that can serve as type for EmittableObjects and for wavelike Events, in an argument restriction for the canEmit relation. This is a primitive mechanism to accommodate OWL limitations. A metaclass to serve as a Type for Surface texture attributes of physical objects. WireType is a metatype which is a specialization of the Protege owl:Class that can serve as type for different kinds of wire and an argument restriction for the relations on chemical elements. This is a primitive mechanism to accommodate OWL limitations on relation arguments. A specialization of #$BiologicalTaxon. Each instance of #$BiologicalOrder is an immediate subdivision of some instance of #$BiologicalClass or #$BiologicalSubclass (qq.v.). Instances of #$BiologicalOrder include #$CarnivoreOrder, #$Monotreme, and #$Primate. bd58e329-9c29-11b1-9dad-c379636f7270 Each instance of FingerType is a subtype of 'Finger', indicating the specific type of Finger (e.g. 'LeftThumb'). CollectiveNounCategory is a metatype which is a specialization of the Protege owl:Class that can serve as type for classes that are labeled as collective nouns in Engolish, such as 'lumber'. A metatype whos instances are the different ranks (levels) at which military personnel are classified for purpose of pay, duty, or authority. The separate service ranks (USNavyRank) are subtypes of this type. Corresponds to part of noun sense 2 of 'rank' in WordNet: 2. (6) rank -- (relative status; "his salary was determined by his rank and seniority") 30f91a14-74b0-11d6-8000-00a0c99cc5ae rank rank rank2n The scale of ranks employed by the United States Navy. This is a collection of attributes that are used with the predicate #$rank-Military. 30f91a14-74b0-11d6-8000-00a0c99cc5ae rank rank rank2n The scale of ranks employed by the United States Air Force. This is a collection of attributes that are used with the predicate #$rank-Military. b77c6604-74b0-11d6-8000-00a0c99cc5ae rank rank rank2n The scale of ranks employed by the United States Army. This is a collection of attributes that are used with the predicate #$rank-Military. a0906ed6-74b0-11d6-8000-00a0c99cc5ae rank rank rank2n The scale of ranks employed by the United States Marine Corps. This is a collection of attributes that are used with the predicate #$rank-Military. ccf8b4ba-74b0-11d6-8000-00a0c99cc5ae rank rank rank2n a metatype that can be used as an argument restriction for relations that take a subtype of Illness as one of their arguments. a metatype that can be used as an argument restriction for relations that take a subtype of Infection as one of their arguments. A Device or Process in its Role as an Invention. To refer to a device or process as an invention, one can add the type 'InventionType' to the type (OWL class) and then refer to that type. See 'ThomasAlvaEdison' for an examnple of usage. This is approximately sense 2 of 'invention' in WordNet, however, as a metatype it has no direct connection to any other type 2. (6) invention, innovation - (a creation (a new device or process) resulting from study and experimentation) invention invention2n BiologicalOrgan is a metaclass used as the Type restriction on certain relations that pertain to named parts of organisms at particular stages of their life cycle. It is not necessarily an animal body part type - it may be part of a plant. a metatype that can be used as an argument restriction for relations that take a type of Location (spatial location) as one of their arguments.. a metatype that can be used as an argument restriction for relations that take a type of TimeInterval (temporal location) as one of their arguments.. a metatype that can be used as an argument restriction for relations that take an instance of Feature as one of their arguments.. A collection of specializations of #$AnimalBodyRegion. Each instance of #$AnimalBodyPartType is a collection of body parts, where the parts in question are differentiated from other body parts according to structure or function. Instances of #$AnimalBodyPartType include #$SpinalColumn, #$Eyelash, #$NervousSystem, #$Urethra, #$Wing-AnimalBodyPart, and #$HeelOfPalm. bd58e7da-9c29-11b19dad-c379636f7270 'ProductType' is a metatype that can be used as an argument restriction for relations that take an instance of Product (i.e. something for sale) as one of their arguments.. GroupType is a metatype which is a specialization of the Protege owl:Class that can serve as type for physical objects and an argument restriction for various relations on types of Groups (not just People, but any type of Group). This is a primitive mechanism to accommodate OWL limitations on relation arguments. SubstanceType is a metatype which is a specialization of the Protege owl:Class that can serve as type for physical substances and an argument restriction for the hasComponentSubstance relation. This is a primitive mechanism to accommodate OWL limitations on relation arguments. NOTE: as of rev929, Protege 4 infers individual substances to be subtypes of 'SubstanceType' - why? Need to track that down: @ToDo! (see 'Food' - not a subtype.) The restriction on hasGrainDiameter for SubstanceTypes should require subclasses rather than instances of LengthMeasure - instances may have to be created as a workaround. 'Money' is treated in COSMO as a GenericSubstance, and specific quantities of money are the objects that consist of Money. MoneyType is a metatype that can be used as an argument restriction for relations that take a subtype of Money as one of their arguments. Instances of MoneyType can be abstract or physical. EnergyType is a metatype which is a specialization of the Protege owl:Class that can serve as type for types of Energy and an argument restriction for the isaSourceOf relation. In COSMO Energy is viewed as a form of Substance, and a Quantity of energy would be made up of Energy; relativistically, a quantitiy of Energy is equivalent to some Mass (i.e. equivalent to a PhysicalObject). Thus Energy behaves somewhat like a PhysicalSubstance, but to avoid unnecessary complications, it is not classified as a PhysicalSubstance, but as a GnericSubstance. This is a primitive mechanism to accommodate OWL limitations on relation arguments. FoodType is a metatype which is a specialization of the Protege owl:Class that can serve as type for different kinds of Food (a Substance). This is a primitive mechanism to accommodate OWL limitations on relation arguments. 'SoupComponentType' is a specialized metatype which that has as its instances only those solid Foods (substances) that are commonly added to Soup. This tactic is required because subtances are represented as types, and to specify a union as a means of repressenting an 'A or B' object does not work. A messy OWL workaround. FoodType is a metatype which is a specialization of the Protege owl:Class that can serve as type for different kinds of FoodObject (a PhysicalObject). This is a primitive mechanism to accommodate OWL limitations on relation arguments. a metaclass used as the Type restriction on certain relations that take subclasses of ChemicallyDefinedSubstance as their argument. Cyc: A collection of collections and a specialization of #$TangibleStuffCompositionType. Each instance of #$ChemicalSubstanceType is a specialization of #$PartiallyTangible whose instances are defined _only_ by their chemical composition - not by their physical state or any other property. Instances of #$ChemicalSubstanceType can be of two varieties: (1) Collections whose instances are completely uniform with each other in terms of chemical composition; this includes (a) the chemical elements - such as #$Carbon, #$Oxygen, and #$Hydrogen - which are instances of #$ElementStuffTypeByNumberOfProtons (thus, the latter is a specialization of #$ChemicalSubstanceType), and (b) chemical compounds constituted of more than one substance chemically bonded, e.g., #$Water, #$Caffeine, and #$IronOxide, which are instances of #$ChemicalCompoundTypeByChemicalSpecies (2) Substances which have a general chemical specification, that is, whose instances do not have exactly the same chemical composition but fall within certain specifications, e.g., #$DNAStuff. Note that collections that are _not_ instances of #$ChemicalSubstanceType include collections of substances which have some component which is of overriding significance in some context, so that in everyday language such substances are frequently referred to by the name of their important component (e.g., penicillin applied to a tablet containing penicillin), but which have significant admixtures of other substances. Thus, #$Penicillin is an instance of #$ChemicalSubstanceType, but the collection of tablets containing penicillin and including other ingredients is not. Also, specializations of #$Mixture, such as #$Lemonade, are _not_ instances of #$ChemicalSubstanceType, because mixtures are determined by their physical state rather than solely by their chemical composition. bd58cd95-9c29-11b1-9dad-c379636f7270 COSMO note: used for both substances and Objects. @ToDo (v0.50) Probably should be distinguished. Cyc: A collection of collections, and a specialization of #$ManufacturedGoodsType. Instances of this collection are types of pharmaceutical products that may be prescribed by a medical professional. Note that this includes drugs -- specializations of #$DrugSubstance -- as well as pharmaceutical devices such as #$TestStrip or #$HearingAid-Prescription. #$PrescriptionDrugType and #$OverTheCounterDrugType are among the specializations of this collection. c0fdf171-9c29-11b1-9dad-c379636f7270 'TimedClassType' is a special metaclass used to allow the assertion, within the OWL format, of time limits on assertion of QalitativeAttributes for things. This special mechanism is used because in COSMO QualittaiveAttributes are types (owl:classes), and the 'instances' of QualitativeAttributes cannot be made instances of TimeSlice to allow assertion of time limits on their applicability. To use this, an assertion of a QualitativeAttribute within a time interval requires that a new class representing that attribute in that time interval be created when the time-indexed assertion is made. See 'AliveDuring1943-2008' and 'PatrickCassidy' for an example of use. The class of Synonyms has two uses: (1) When a synonymous term is included as a subtype of Synonym, it allows searching for a Type by more than one term, in the case where the alternative term(s) are also unique in the ontology. For example, where Cyc class names (but not meanings) have been changed, the Cyc term may also be included as a Synonym. We use the isaSynonymOf relation to relate Synonym classes to the class with the base name. (2) when used with the 'hasSynonym' relation, instances of Synonym can specify the context (such as namespace) in which the second term is a synonym of the first, and can indicate the overall frequency with which the term in that context actually has the same meaning as the base term. Since there can be multiple instances of the same synonymous term, it is represented as a datatype String entity. NOTE that instances of Synonym need to have unique id's as their identifiers in the ontology, so it is recommended that the unique ID's be generated by prefixing a namespace to the synonymous term that is pointed to by the 'hasSynonymousTerm' property of the Synonym instance. Thus if some term has the synonym 'process' in the PSL context, the instance of Synonym that specifies that relation can be named, e.g. 'PSL$process'. The general English contexts, where words may be ambiguous, is indicated by the namespace prefix 'engen'. A pointer from a concept to another concept of which it is a synonym. This is a crude method to permit search in Protege for synonyms of terms in the class search window. In v0.3 these synonyms were confined to classes. For other synonyms, use 'hasSynonym'. A pointer to an English word of which the given element represents at least one sense. This is used when there should be some lexical reference, but it is not in eother WordNet or LDOCE defining vocabulary. Longman vocabulary word A pointer to the word in the LDOCE (Longman Dictionary of Contemporary English) defining vocabulary which the given element represents. Since the LDOCE words can be polysemous, and the nominalized forms of verbs in the COSMO will not be identical to verb meanings, this is not intended as a one-to one mapping, but in many cases the occurrence of a word in a text will be related to the COSMO concept representation by a more or less complex transformation. Longman vocabulary word 'syn-en' points to a string in the English language that may represent the concept related by this relation, in some English text in some context. This relation can be used to point to an English word used to reer to a concept; it is particularly useful when there are no words from Longman or senses from the WordNet that label the specific concept sense intended. English synonym A pointer to the synset in WordNet 2.1 which the given element represents. The pointer will in fact be to one of the words in the synset, and the sense number of that word in that synset will be found with the 'wnsense' relation. This pointer does not include the offset number. This can be used with a SPARQL query to find all of the ontology elements that correspond to senses for a given word. Wordnet vocabulary word A pointer to the sense number (and POS, if needed) in WordNet 2.1 which the given element represents. This is only needed if there is more than one WordNet sense for the word labeled by the 'wordnet' relation. The sense number should include the word whose sense number is referenced, since more than one Wordnet word may be used to label a particular concept. The usage is exemplified by these relations on 'Ordering': wordnet - order - /wordnet wordnet - command - /wordnet wnsense - order1v /wnsense wnsense - command2v - /wnsense WordNet sense. A pointer to the word in Anna Wierzbicka's 'natural semantic metalanguage' of 60 conceptual primitives that corresponds to the ontology element. NSM word Points to an English language word that is used to refer to the ontology element. Objects can be Physical or Abstract or Mental only PhysicalObjects have mass, and that is the defining characteristic of a PhysicalObject in COSMO. All Objects have at least one relation other than the type (isa) relation to some other entity that is not an Object. Almost all objects have an Attribute or AttributeValue. But the relation may be some other relation (e.g. to have a location, a composition, or to have proper parts). Thus a point can have Dimensionality (zero-dimensional), and will have a location, though the location may be in a poorly defined abstract space. For example, a character in an alphabet is an abstract object, which has at least one representation as a shaped physical object, and is an element of an Alphabet. This requirement for an Object to have some relation is not presently (v0.48) formalized in COSMO, as it is not needed for performance, only to clarify the meaning for the human users. 'Object' is a very primitive concept that cannot be defined, but can be comprehended only by the way this concept interacts with other concepts, and by its subclasses and instances. This Type is useful as an umbrella Type for various purposes,including relations on Events. NOTE that in COSMO an 'Object' is not necessarily 3D (as in an endurantist perspective) nor 4D (as in a perdurantist perspective. It can be use in syntactic constructions that appear to be 3D (such as when they are explicitly time-indexed), but when an object is also an instance of TimeSlice,it can be used in syntactic constructions that are typical of the 4D perspective, in which the time of a relation is not explicitly indexed. There is no WordNet sysnset that includes abstract objects, so the WordNet 'object' is identified only with 'PhysicalObject'. object The most general Type for Objects whose subtypes are abstract - intangible - things that do not have mass. Note that AbstractEntity is not a subtype of AbstractObject - the name 'Abstract' is retained for alignment with other ontologies. NOTE in particular that AbstractEntity is not disjoint from MentalObject, which may be created by people in space and time, and hae a location in space and time. The kind of abstract things that do not have a locaiton in space and time are under 'AbstrctObject' in COSMO. COSMO Note: the notion of 'Abstract' has historically been somewhat vague. It is often defined by saying that it represents things 'not located in space or time' - but then subclasses are defined which are clearly mental constructs with a defined creation time (e.g. musical compositions) - which means that they must indeed be located in time and space. In this ontology we distinguish 'Abstract' things from 'MentalObjects' - the latter are things created by IntelligentAgents (people) that have no mass, and therefore would traditionally be categorized as 'Abstract'. 'AbstractObject' here is used mostly to categorize mathematical things such as numbers, which arguably do not depend on intelligent entities for their existence. But 'AbstractEntities" and 'MentalObjects' are not considered disjoint here, so there is room for people to argue whether mathematical concepts are created or merely discovered by mathematicians - we take no position on that issue. hasAttributeType relates an Attribute to the Type of the attribute. COSMO: SituationProcessEventOrState is a broad category that includes Events, FunctionalProcesses, and PersistentStates,all of which are different aspects of the same fundamental conceptual entity, commonly called an 'Event'. Each instance of 'SituationProcessEventOrState' in COSMO is a Group of TimeIndexedAssertion, in aggregate representing the changes (if any) to the properties (attributes and relations) of one or more objects over some interval of time, An InstantaneousState may have only one TimeIndexedAssertion, but Events and FunctionalProcesses will have at least two. Event is a Group of 'TimeIndexedAssertion's containing the component elements: (1) InstantaneousState at the starting time (2) InstantaneousState at the Ending time (3) The FunctionalProcess that describes the intermediate states between the starting and ending times. **Informally**, a state,process, or event is interpreted as the set of *values* of some 'fluents' (attributes or relations that may change over time), but the actual *formal* representation is a Group in which the group elements are the *LinguisticAssertions* specifying the values of the fluents pertaining to some Group of Objects. Each LinguisticAssertion specifies the value at some time point (or time interval). The differences in State, Process,and Event are: State: The Group of Assertions that hold at one time point (InstantaneousState), or persist without change of value over some contiguous interval of time (PersistentState). No value can chage within a State. FunctionalProcess: The full set of LinguisticAssertions specifying the values of fluents at each time point or smaller TimeInterval within a TimeInterval in which the Process is defined. The set of LinguisticAssertions relate times to values,and in that respect is analogous to a mathematical function. In analogy to a mathematical function, one can derive a 'rate' for a Process (in cases where the values are quantified) by taking the ratio of (difference in value) to (difference in time) for any TimeInterval in which a change of value is specified. This rate may change from time to time during a FunctionalProcess. Event: focuses on the values of the fluents at the beginning and ending of some TimeInterval, but also includes the FunctionalProcess that specifies the fluent values at times between the beginning and ending. Since the focus of an Event is on the change from one time point to the next, one cannot specify a 'rate' in the same sense as for a FunctionalProcess, where the rate may change many times during the FunctionalProcess. For an Event, one can derive a single 'rate' value that specifies the overall ratio of change of fluent value to time, between the beginning and ending points, and for an Event, only one such 'rate' can be defined. NOTE: In COSMO a Situation is classified as a CompositeConcept because it is considered as a composite of the InstantaneousStates at the beginning and ending times of the Situation (which can be the same time), plus the FunctionalProcess that describes the states intermediate between the beginning and ending times. Called: Situation-Temporal(Cyc) perdurant(DOLCE) ***** Special COSMO NOTE on BFO 'ProcessualEntity' ***************************** In BFO the Type 'ProcessualEntity' appears to be most closely similar to COSMO 'SituationProcessEventOrState'. However, the division of the BFO Type into 'FiatProcessPart' and 'Process' has no corresponding division in Cyc or SUMO. In COSMO we include a FiatProcessPart for compatibility, but do not use it (no subtypes), and do not use the BFO partition of 'ProcessualEntity'. BFO Definition: An occurrent that exists in time by occurring or happening, has temporal parts and always involves and depends on some SNAP entity. Examples: the life of an organism, the process of meiosis, the course of a disease, the flight of a bird ***** End Special NOTE on BFO 'ProcessualEntity' ***************************** Cyc 'Situation' is indistinguishable from 'Situation-Temporal' except for the possible inclusion in 'Situation' of abstract situations not enclosed in a time interval. The term 'Situation' has been interpreted in COSMO as strictly temporal, and the more abstract things that resenble situations have been aggregated under 'AbstractEvent'. Cyc ('Situtation') A subcollection of both #$IntangibleIndividual and #$TemporalThing. #$Situation subsumes #$Event and #$StaticSituation. Each instance of #$Situation is a state or event consisting of one or more objects having certain properties, or bearing certain relations to each other. OPENCYC 1: (Situation-Temporal) MAY 23, 2002 A subcollection of both #$Situation and #$TemporalThing. #$Situation-Temporal is the collection of all instances of #$Situation that have duration or other temporal properties . Thus, #$Situation-Temporal subsumes #$Event and #$StaticSituation, as well as some other specializations of #$Situation. It does _not_ subsume any specializations of #$Situation that have atemporal instances. DOLCE: Perdurants (AKA occurrences) comprise what are variously called events, processes, phenomena, activities and states. They can have temporal parts or spatial parts. For instance, the first movement of (an execution of) a symphony is a temporal part of the symphony. On the other hand, the play performed by the left side of the orchestra is a spatial part. In both cases, these parts are occurrences themselves. We assume that objects cannot be parts of occurrences, but rather they participate in them. Perdurants extend in time by accumulating different temporal parts, so that, at any time they are present, they are only partially present, in the sense that some of their proper temporal parts (e.g., their previous or future phases) may be not present. E.g., the piece of paper you are reading now is wholly present, while some temporal parts of your reading are not present yet, or any more. Philosophers say that endurants are entities that are in time, while lacking temporal parts (so to speak, all their parts flow with them in time). Perdurants, on the contrary, are entities that happen in time, and can have temporal parts (all their parts are fixed in time). Corresponds approximately to noun senses 1 of 'thing'l for Events involving people, use 'HumanActivity': 1. (404) thing - (a special situation; 'this thing has got to end'; 'it is a remarkable thing') thing thing thing1n A TemporalLocation is a location for something - usually an Event - in the universal time line of our real world, or some alternative reality. It may be a time interval or a point in time. Instances of TemporalLocation may be represented by a DateTimeString , without being reified as an actual instance of this Type. This category includes the conceptual 'Datetime' Entity that is pointed to by the common relations like 'CREATION_DATETIME' that occur in databases. This entity is often represented by a built-in dataype of 'DateTime' or something similar. In COSMO, a DateTime is represented by subtpyes of DateTimeString, an AbstractString. A location in time can serve as a Context, which is anything that can affect the truth of a statement. In the real world, virtually every statement about real-world objects is true only in some particular time interval. RELATIVITY: Time is assumed in COSMO to be measured by some clock, which by default is the NIST atomic clock set, but can be specified as some other clock. Thus a time slice of a spatiotemporal region will be unambiguous, and observers moving relative to that clock, or relative to each other, need to adjust their interpretation according to the equations of relativity. In COSMO there is a superfluous subtype link of this entity to the most general 'Thing' so that 'time' will be exposed to viewers of this ontology at the highest level in Protege, for perspicuity. ******** NOTE on BFO 'TemporalRegion' *********************** The BFO 'TemporalRegion' appears to be the closest BFO Type to the COSMO 'TemporalLocation'. BFO Definition ('TemporalRegion'): An occurrent that is part of time. BFO: Examples ('TemporalRegion'): the time it takes to run a marathon, the duration of a surgical procedure, the moment of death COOSMO note: this is not a *quantity* of time, as the BFO example might suggest, but a *location* in time. 'ten minutes' is not an instance of 'TemporalLocation'. ******** NOTE on BFO 'TemporalRegion' *********************** TimeInterval is not a quantity of time (what is measured by a stopwatch), but a it is a specific region of the time line, what is measured by a calendar (in our real world or in some hypothetical world). NOTE that it is not necessary that a TimeInterval be measured from some universal fixed point, such as 0 AD; any point on the time line may be used as the base referene point for a TimeInterval. Called: TimeInterval(Cyc); TimeInterval(SUMO - but SUMO requires contiguous intervals); time-interval(DOLCE) or period_in_time(ISO15926); the BFO equivalents of TimeInterval ('TemporalInterval') and TimePoint ('TemporalInstant') are disjoint in BFO, but a TimePoint is a subtype of TimeInterval in COSMO. For a quantity of time, use 'TimeDuration'. COSMO NOTE: as a convenience, a calendar time interval can be given a name that conforms to the conventions of one of the DateTime strings defined in COSMO, such as a 'DateTimeExtendedGroup', providing an opportunity for an interpreter to recognize the referenced time interval solely from the name of the instance. See the example used in defining the TimeAndPlace 'WorldTradeCenter20010911'. In Cyc, TimeInterval is not a measure. SUMO: An interval of time. Note that a TimeInterval has both an extent and a location on the universal timeline. Note too that a TimeInterval has no gaps, i.e. this class contains only convex time intervals. OPENCYC 1: MAY 23, 2002 A specialization of #$TemporalThing. Each instance of #$TimeInterval is a temporal thing characterized fully by its temporal attributes. For example, the year A.D. 1967 is an instance of #$TimeInterval; although many interesting things happened during that year, the year itself is completely defined by its temporal extent. On the other hand, the event of Neil Armstrong's walking on the Moon is an #$Event and not a #$TimeInterval, since it is not fully characterized by its temporal extent or other temporal attributes. Specializations of #$TimeInterval include #$CalendarYear, #$CalendarMonth, and #$FiscalQuarter. DOLCE: a region - (Space and Time are special kinds of regions, i.e. AttributeValues or measures) A temporal region, measured according to a calendar. NOTE that a redundant subtype link to 'SituationProcessEventOrState' is included just to make it easier to find TimeInterval in a drill-down search. Corresponds approximately to noun sense 2 of 'time' in WordNet, but a 'TimeInterval' can be very specific as to starting and ending TimePoints: 2. (355) time - (an indefinite period (usually marked by specific attributes or activities); "he waited a long time"; "the time of year for planting"; "he was a great actor is his time") time time time2n BFO Definition: An occurrent at or in which processual entities can be located. COSMO note: this concept in COSMO is very generic,a nd can be used to specify a spatiotemporal region of any shape. To specify a spatiotemporal region of a more defined shape, use 'TimeAndPlace', for which the spatial shape of the region will depend on the 'location' component of the instance defined. BFO Examples: the spatiotemporal region occupied by a human life, the spatiotemporal region occupied by the development of a cancer tumor, the spatiotemporal context occupied by a process of cellular meiosis spatiotemporal_region COSMO: a three-dimensional region of some space (not necessarily our real world space). This is the space itself, and does not include or immply that ther are any objects in it. However, each instance of this kind fo space will usually be interpreted relative to some defined cooridinate system, which, in the ral world, usually means that it is relative to some physical object (which could be the collecion of all object in the universe as a whole, to provide a universal frame of revernce). In Cyc called 'ChunkOfSpace'. Cyc: A specialization of both #$ExtendedSpaceRegion and #$TwoOrHigherDimensionalThing (qq.v.). Instances of #$ChunkOfSpace are three-dimensional portions of a three-dimensional space. This is the kind of place that solid (i.e. three-dimensional) objects occupy. It makes sense to speak of, or compute, the volume of such objects. An important specialization of this collection is #$ChunkOfSpace-Empirical, whose instances are pieces of space in the empirical universe - the kind of space that physical objects occupy. be669a01-9c29-11b1-9dad-c379636f7270 be5c5d8b-9c29-11b1-9dad-c379636f7270 A connected part of any space, physical or abstract. A Region does not have to be empty, but can be occupied by solid objects. For an empty region of space see 'FreeSpaceRegion'.This type differs from Place in that it cannot be a PhysicalObject, it is a Region of pure space, which may or may not have PhysicalObjects located in it. NOTE that Region is disjoint with PhysicalObject, but not disjoint with Object (which can be abstract). A Feature is classified as an Object though it may also be a Region. In Cyc called 'SpaceRegion' CYC: A specialization of both #$SpatialThing and #$IntangibleIndividual (qq.v.) whose instances are regions of space that exclusively act as possible locations for other spatial objects, and thus are immobile. A space region might be three-, two-, one-, or zero-dimensional; and spatial objects occupy such regions accordingly. Three-dimensional space regions (see #$ChunkOfSpace) can be occupied by solid objects. Two-dimensional space regions (or #$SpaceSurfaces) can be occupied by a purely two-dimensional objects. And similarly for one-dimensional space regions (#$SpaceLines) and zero-dimensional space regions (#$SpacePoints). Another important specialization of #$SpaceRegion is #$SpaceRegion-Empirical, whose instances are pieces of the embedding space for spatio-temporal objects (see #$SpatialThing-Localized). For more on spatial location and occupancy, see #$AbsoluteLocationalPredicate and its instances. BFO (SpatialRegion): Definition: A continuant at or in which other continuants can be located. COSMO note: in BFO, a SpatialRegion is the union of: Line, Point, Surface, and Volume. This is close to the present concept of 'Region', but those terms in COSMO are more abstract. Includes but is broader than noun sense 1 of 'area' in WordNet: 1. (620) area, country - (a particular geographical region of indefinite boundary (usually serving some special purpose or distinguished by its people or culture or geography); "it was a mountainous area"; "Bible country") area area area1n One of the fundamental directions which define a space, abstract or physical; a 'Dimension' provides a criterion by which to create a linear ordering of points, which may themselves be complex objects. This is an abstrac notion, of which the common Dimensions of SpaceTime (three spatial, one time) are subtypes. Each Dimension is an abstract part of a Space. A Dimension provides a means of linear ordering, but does not have to be metric - there does not have to be a defined distance between points within the Dimension. Corresponds approximately to the union of senses 1 (mathematical) and 5 (topology) of 'dimension' in RHW: 1.Math. a. a property of space; extension in a given direction: A straight line has one dimension, a parallelogram has two dimensions, and a parallelepiped has three dimensions. b. the generalization of this property to spaces with curvilinear extension, as the surface of a sphere. c. the generalization of this property to vector spaces and to Hilbert space. 5. Topology. a. a magnitude that, independently or in conjunction with other such magnitudes, serves to define the location of an element within a given set, as of a point on a line, an object in a space, or an event in space-time. Includes sense 3 and (a small) part of sense 2 of 'dimension' in WordNet; it is unclear whether the WordNet sense 2 is intended to include the sense of this type, but if not, it should: 2. (5) property, attribute, dimension - (a construct whereby objects or individuals can be distinguished; 'self-confidence is not an endearing property') 3. (1) dimension - (one of three Cartesian coordinates that determine a position in space) dimension dimension2n dimension3n A 'Dimension' in which there is a defined 'distance' measure that allows one to specify the distance between any two points in the Dimension. Corresponds approximately to the union of senses 1 (mathematical) and 5 (topology) of 'dimension' in RHW: 1.Math. a. a property of space; extension in a given direction: A straight line has one dimension, a parallelogram has two dimensions, and a parallelepiped has three dimensions. b. the generalization of this property to spaces with curvilinear extension, as the surface of a sphere. c. the generalization of this property to vector spaces and to Hilbert space. 5. Topology. a. a magnitude that, independently or in conjunction with other such magnitudes, serves to define the location of an element within a given set, as of a point on a line, an object in a space, or an event in space-time. Includes sense 3 of 'dimension' in WordNet: 3. (1) dimension - (one of three Cartesian coordinates that determine a position in space) dimension dimension3n 'DimensionOfCausality' is a 'MetricDimension' that can be an abstract dimension, or in our space-time the TimeDimension; its special property is that some 'causality' (abstract or concrete) must work from the lower magnitutdes of the Dimesnion to the higher magnitudes. The TimeDimension of or SpaceTime is one subtype. This type is included in COSMO to allow an abstraction of the dimension of Time in our SpaceTime, so that onw can envision abstract processes that 'cause' things to happen in an abstract space. For example, one can have an abstract Cartesian space with geometric objects whose shape, oritentation, or position relative to other objects are caused to change by the action of other objects or events, or processes in that space - i.e. a 'virtual world'. The DimensionOfCausality in such an abstract world would be analogous to Time in our SpaceTime, where effects must necessarily follow causes. 'TimeDimension'is the dimension of time in our SpaceTime; it is a subtype of the more abstract 'DimensionOfCausality'. Corresponds to noun sense 7 of 'time' in WordNet: 7. (33) fourth dimension, time - (the fourth coordinate that is required (along with three spatial dimensions) to specify a physical event) time time time7n COSMO Note: note that Cyc SpatialThing does not have to be in our space-time, whereas DOLCE spatio-temporal-particular is. So the DOLCE class is a subclass of the Cyc class. OPENCYC 1: MAY 23, 2002 The collection of all things that have a spatial extent or location relative to some other #$SpatialThing or in some embedding space. Note that to say that an entity is a member of this collection is to remain agnostic about two issues. First, a #$SpatialThing may be #$PartiallyTangible (e.g. #$Texas-State) or wholly #$Intangible (e.g. #$ArcticCircle or a line mentioned in a geometric theorem). Second, although we do insist on location relative to another spatial thing or in some embedding space, a #$SpatialThing might or might not be located in the actual physical universe. It is far from clear that all #$SpatialThings are so located: an ideal platonic circle or a trajectory through the phase space of some physical system (e.g.) might not be. If the intent is to imply location in the empirically observable cosmos, the user should employ this collection's specialization, #$SpatialThing-Localized. Note that most of the Cyc 'SpatialThings' are in our universe (though not necessarily), so most are also under DOLCE 'spatio-temporal-particular'. DOLCE: Dummy class for optimizing some property universes. It includes all entities that are not reifications of universals ('abstracts'), i.e. those entities that are in space-time. spatio-temporal-particular[DOLCE]%SpatialThing OPENCYC 1: MAY 23, 2002 The collection of all spatial things, tangible or intangible, that can be meaningfully said to have location or position in the empirically observable universe of the context in question. This includes all #$PartiallyTangible things, such as pyramids and ships, as well as certain #$Intangible spatial things, like the #$Equator. Also included are all #$Events that can be pinned down to specific places (see #$Event-Localized), and thus all #$PhysicalEvents. But note that many events are non-examples, such as the event of a certain law coming into effect and (presumably) purely mental events as well, at least in most contexts. Also excluded are #$SpatialThings that are _not_ localized, such as purely abstract geometrical figures (e.g. a Platonic sphere). All instances of #$SpatialThing-Localized are temporal things, and thus have finite lifespans (the upper bound of which is the lifespan of the universe itself). Finally, note that imaginary entities like Frodo, Captain Queeg, and #$HAL9000-TheComputer may be localized within the (imaginary) universes attaching to the fictitious contexts in which they are defined, and so would be instances of #$SpatialThing-Localized within those microtheoretic contexts. NOTE: because Cyc 'SpatialThing-Localized' includes intangible spatial things, this is not identical to the purely physical objects such as 'Oject' in SUMO. In COSMO,purely physical objects are categorized in the Type 'PhysicalObject', which is a subtype of this 'SpatialThing-Localized' category. A SpatialRegion can be of any dimension, though the ones of most interest are three-dimensional in our real world. All Regions must have their location referenced to some definable object, whether abstract or physical. In theory, it may be possible to consider the whole universe as an Object and define 'absolute' regions based on locations in the whole universe, but that may not be useful for any practical purpose. The regions of greatest interest to people are regions defined relative to the Earth's surface, which forms a moving rotating frame of reference, which we treat as stationary for most purposes. NOTE: The BFO 'SpatialRegion' is closest to the COSMO 'PhysicalSpaceRegion' which is a subtype of this Type. PhysicalSPaceRegion is a portion of the there-dimensional space of our real world space-time universe. This is considered equialent to\the BFO 'Volume' COSMO Note: SpaceRegion in OpenCyc is not an Object, but pure space. Objects may be located in space. This region is part our our Space-Time This concepts is roughly equivalent to the OpenCyc 'ChunkOfSpace-Empirical', but we allow space regions to be defined by their relation to physical objects - therefore they may not be 'immobile' as the Cyc documentation suggests for 'ChunkOfSpace-Empirical'. For simplicity, the Cyc concept 'SpaceRegion-Empirical' has been merged with this concept, as the distinctions did not seem to have sufficient importance to justify the complexity. BFO: the BFO Type 'SpatialRegion' appears to have the same intent as this Type. The BFo subtypes of Line and Surface appear to be isentical to the subtypes of this Type: SpaceLine-Empirical, SpaceSurface-Empirical, BFO Definition ('SpatialRegion'): A continuant at or in which other continuants can be located. BFO Examples ('SpatialRegion'): the space occupied by an appendix, the space that was occupied by an appendix prior to its removal Cyc comment for 'ChunkOfSpace-Empirical': A specialization of #$SpaceRegion-Empirical, #$ChunkOfSpace, and #$SpatialThing-Localized (qq.v.). Instances of #$ChunkOfSpace-Empirical are three-dimensional portions of the intangible space of the empirically-observable universe. This is the kind of space that physical objects occupy. Cyc comment for 'SpaceRegion-Empirical': A specialization of #$SpaceRegion, #$SpatialThing-Localized, and #$IntangibleExistingThing (qq.v.). Instances of #$SpaceRegion-Empirical are intangible regions of space located in the empirically observable universe. A space region might or might not be connected (see #$SpatiallyContinuousThing). It might be partially or completely filled with (occupied by) #$PartiallyTangibles, or it might be completely empty (but cf. #$EmptySpaceRegion). In any case, the space region itself is not to be confused with a physical object or other spatially localized (non-space-region) thing that might happen to be #$cospatial with it. A given space region can be characterized fully merely by specifying its location and dimensions. Thus (although this is not the case with spatial things in general), space regions are identical (#$equals) if and only if they are #$cospatial. #$SpaceRegion-Empirical is in a way the spatial analogue of #$TimeInterval, whose own instances can be fully characterized by specifying their temporal properties; these two collections can be used, respectively, to talk about space and time as dimensions . Specializations of #$SpaceRegion-Empirical include #$SpacePoint-Empirical, #$SpaceLine-Empirical, #$SpaceSurface-Empirical, and #$ChunkOfSpace-Empirical. OPENCYC 1: MAY 23, 2002 A specialization of #$SpatialThing whose instances are regions of space that exclusively act as locations for other spatial objects, and thus are immobile. Instances of #$SpatialThing are said to occupy some region of space. Three dimensional regions of space [#$ChunkOfSpace] can be occupied by solid objects, see the specialization #$ChunkOfSpace-Empirical for the regions of space occupied by physical objects. Purely two-dimensional objects occupy a #$SpaceSurface, see also #$SpaceLine and #$SpacePoint-Empirical for objects of lower dimension. Note that an object of a given dimension cannot truly be located [#$exactlyLocatedAt-Spatial] at a region of space of lower dimension, but only partially or incidentally. For more information on location and occupancy, see #$AbsoluteLocationalPredicate and its instances that relate objects in space and their regions. An important specialization of #$SpaceRegion is #$SpaceRegion-Empirical, whose instances are pieces of the embedding space where spatio-temporal objects are empirically localizable [#$SpatialThing-Localized]. Note that SpaceRegion in SUMO is an object viewed as a location. A GenericAgent is an aggregate concept representing things that can be linguistically categorized as agents, that is they are the causative subject of an action. One difficulty comes when including Organizations as Agents; Organizations are not actual physical Objects, therefore cannot literally do things to change the physical world. Rather, people who belong to Organizations, or their 'agents' do the actual moving and lifting that are the causes of actions in the real world. Nevertheless we talk of organizations as though they were somehow objects that did the actions themselves. A second problem arises when inanimate objects take the linguistic form of agents: 'The rock broke the window' or 'The knife cut a deep gash in his arm'. By themseles, those sentences would have the rock or the knife as agents, and the window or arm as patients. If more detail were given: "Tom broke the window with a rock'; 'Tom cut a deep gash in Mike's arm with a knife', the agent now shows up as Tom, and the rock and knife are instruments. For that reason, an instrument (a Role) is categorized in COSMO as a subtype of GenericAgent, to accommodate the linguistic structures where instruments take on the synactic/semantic role of an agent. This category is here to provide a place for the linguistic notion of 'Agent' that can include 'social agents' such as organizations. In this classification we adopt a broad view of agents, allowing inanimate things like hurricanes and tornadoes to be classified as AgentiveObjects. Role is a high-level concept that aggregates several primitive notions, and is difficult to describe analytically, but has a necessary property that, as a subtype of TemporalThing, every instance has a beginning time and an ending time. For Roles that are created by an Event and last forever, (The Father of PrinceWilliam), the ending time can be TheEndOfTime. @ToDo: Certain type of Roles (such as Part) may relate abstract entities that are not located in time, and should not be subtypes of TemporalThing. A differentiation of time-dependent and time-independent Roles should be added. The notion of Role is related to the more general notion of a semantic relation, and in some knowledge representations the relations are called 'roles'. In COSMO there is s difference, as a Role is a type, though every Role may in fact imply the existence of some semantic relation that relates the role to another entity with respect to which it plays a role. The details of how to relate these notions is left to a later stage of development of the ontology. For case roles in a specific Event, the Role lasts no longer than the duration of the Event (but may last for less than that time, for participants who participate only for part of an Event). The most common use of 'Role' is for concepts that exist in dependence on other concepts, such as 'Mother', which implies a child, or 'President' which implies some organization. But grammatical roles such as the cases of verb case frames will also fit under this broad category. When a phrase such as 'The ?X of ?Y' is encountered, almost invariably the ?X is a Role of some kind, which also includes parts. In COSMO 'Role' is broad enough to include Events; for example, 'Choice' is a Role, and some Events may fill the Role of 'Choice' - those thing a Person chooses to do. NOTE importantly: that HumanRole is a subtype of this category, and also a subtype of Person, so Person and Role are not disjoint. This allows HumanRoles (janitor, President) to serve in the same relations that people themselves would serve, but they are also recognizable as Roles because they will be subtypes of the Role category. The mathematical and logical 'equals' can be used to equate a unique Role with its filler, but only if the time interval during which that relation hodls is specified. In that case, the Role and its filler can be used interchangeably, but only in the base 'all-knowing' context NOTE that Roles may not be 'transparent' in referential contexts asserting beliefs or possible worlds. A person who does not know the filler of a Role may express opinions about the Role, which are inconsistent with their opinions about the filler of the Role. For example, a man who loves his wife may assert that he hates the murderer of a friend, not knowing that his wife is the murderer of his friend. If the Role and role filler were asserted to be mathematically identical in all contexts, this would entail a contradiction, assuming that love and hate are disjoint for this example. An individual assertion by a Person needs to be treated as a part of a belief system. NOTE also that when used as a pure OWL ontology, it will be necessary for every subclass of Role should to be an instance of RoleType, so that it can be used as an argument for the relation 'isServingInTheRoleOf'. If, in other formats, this condition is not explicit, the translation should add the Type when converting into OWL format. For Roles that are merged with other Types, such as HumanRoles, each should have its own explicit relation indicating when the role-filler started in that role and when (it/he/she) ended. If it is possible to fill a Role for multiple non-continguous periods of time, then the begin and end time of each continuous segment of 'Role' will define individual instances of that Role; as a reault, the relation 'isServingInTheRoleOf' cannot be functional. NOTE also that the use of 'Role" in the COSMO is still being developed, and is likely to be seen to be inconsistent in application (though not logically inconsistent) as of v 0.49. The issue not yet resolved is whether the subtypes of 'Role' as here used would be better categorized as 'playing a role' rather than 'being a role'. Although this quasi-philosophical issue is not yet clear, this vagueness does not appear to cause any logical inconsistencies in usage. An AttributeValue is the actual value of some AttributeType possessed by some object, such as six feet for a length, or red for a color. Individual AttributeValues are represented as Types (classes) in COSMO, not as instances. IMPORTANT NOTE: the values represented by each of these AttributeValue Types are here viewed as a region ('Quality Space') in which the actual particular value (see Type 'Quality') is located. Thus one may say an object has a 'Red' color, but later refine the description to say it has a 'Fire Red' color. The 'Fire Red' is also a color region, contained within the 'Red' color region. For quantitative measures, representing attributes as classes allows approximate measures to be built in to the ontology itself. One may specify a range for a measure, and any other measure within or overlapping that range can be considered as 'indistinguishable from' (not 'equal to') the other measure. NOTE: under consideration - the possibility of expressing the possession of an attribute for some interval of time by creating instances of AttributeValue or of Attribute that are also TimeSlices, with the time interval of the TimeSlice representing the time interval during which the Attribute was had. This has an advantage over using TimeSlice to create 4D TimeSlices of an object, and then attributing an Attribute to it - in that one need not create new instances of an Object, which may not be easily associated with the 3D object. GenericSubstance List name: GenericSubstance_COSMO-added__not_an_object__includes_chemicals_ COSMO: GenericSubstance is an abstract notion of Substance as the stuff of which objects are composed. It is not an object, even though the 'Substance's in OpenCyc and SUMO are actually classes of objects of some particular (homogeneous) composition. In COSMO, we make this provision, among other reasons, to allow abstract 'substances' to compose abstract objects. In COSMO 'Substance' is a concept that is analogous to the derivative of an object with respect to volume, i.e. it acts like an abstract density (of some substance type). For COSMO version 0.01 (COSMOtopOWL03: 2006-01-01) the required axioms for a proper definition have not been added. For more discussion see: http://colab.cim3.net/file/work/SICoP/ontac/reference/DimensionsOfProcessAndEvent.doc takesValue relates an AttributeType to the AttributeValues that instantiate the AttributeType. For example, the AttributeType Length will be instantiated by an instance of the type 'LengthMeasure'; thus {Length takesValue LengthMeasure} But because QualitativeAttributeValues are types in COSMO, instances of AttributeValueType may also instantiate an AttributeType. This relation is in some respects reminiscent of the 'instance' relation, but is specific to the relationship between AttributeTypes and AttributeValues (qualitative and quantitative), used to implement the specific method of representing attributes that is adopted for COSMO.. The inverse of 'takesValue'. An AttributeType is a general category of attribute, i.e. some property that adheres in an object, such as length or mass or color or shape for physical objects. More abstract objects such as sets or groups may have more abstract attributes such as cardinality. The distinction between attributes and relations between entities is not absolute. COSMO note: The use of two distinct trees of attribute-related types (AttributeType and AttributeValue) is intended to enable assertions with a linguistic form such as: {Jack has Height {6 feet}) where the second argument 'Height' specifies the general type of attribute, and the value '{6 feet}' specifies the specific attribute value, where 'feet' is a function returning a distance measure. This generic attribute assertion can then be used with other types of attributes, such as: {Jack has Weight {60 kilograms}) and {Car037 has Color RedColor). Corresponds to noun sense 1 of 'attribute' and sense 3 and 4 of 'property' in WordNet: 1. (2) property, attribute, dimension - (a construct whereby objects or individuals can be distinguished; 'self-confidence is not an endearing property') WN noun 'Property': 3. (138) property - (a basic or essential attribute shared by all members of a class; 'a study of the physical properties of atomic particles') 4. (32) property, attribute, dimension - (a construct whereby objects or individuals can be distinguished; 'self-confidence is not an endearing property') attribute attribute1n property property property3n property4n COSMO note: a Place can be a PhysicalObject or a Region. This category is very generic, but is more specific than 'GenericLocation' in that the Place should be stationary, and not an arbitrary PhysicalObject such as a vehicle.. Cyc: A specialization of #$EnduringThing-Localized. Each instance of #$Place is a spatial thing which has a relatively permanent location. Thus, in a given microtheory, each #$Place is stationary with respect to the frame of reference of that microtheory. Corresponds to noun sense 1 of 'position' and sense 3 of 'place' and sense 1 of 'spot' and sense 1 of 'location' in WordNet: WN 'position' 1. (39) position, place - - (the particular portion of space occupied by something; 'he put the lamp back in its place') WN 'spot' 1. (26) topographic point, place, spot - - (a point located with respect to surface features of some region; "this is a nice place for a picnic") WN 'location': 1. (992) location - - (a point or extent in space) bd58d3b4-9c29-11b1-9dad-c379636f7270 position position position1n place place place3n spot spot spot1n location location1n Each SituationalContextComponent is one of the components of the situation in which an IntelligentEntity finds itself, of which it must be aware in order to act or respond appropriately so as to fulfill its goals. Each SituationalContextComponent is defined relative to a particular CognitiveAgent whose actions are being represented in the ontology. GenericLocation is the Type representing the most general notion of location, which can be abstract or concrete, a region of space (including an abstract space, such as the Internet considered as a set of nodes and links, where the nodes can represent computers whose physical location may vary), a point in space, or a physical object (e.g. building, ship, room). NOTE that an Address is not a location, but a label for a location. See 'Address'. NOTE: although *almost* all GenericLocations are exclusively spatial in some way, there is one 'TimeAndPlace' that is spatiotemporal, being a region of space-time that specifies some region of space over some interval of time. Use of an instance of 'TimeAndPlace' as an argument of a location relation allows one to include the important time interval qualifier in location relations, even though one is using only binary relations. this would not be necessary in a representation with higher-arity relations. This is somewhat similar to the Cyc 'Location-Underspecified' Cyc comment: The collection of locations, tangible or otherwise, which are typically conceptualized by human beings for purposes of common-sense reasoning as 'locations'. This collection thus includes tangible Places such as #$Ireland-TheIsland, as well as metaphoric locations. For instance, many states-of-being are conceptualized as abstract locations, such as Trouble ('he saw trouble ahead'), Depression ('she fell into a ...'), #$Happiness ('they found bliss together'). Corresponds to noun sense 1 of 'location' and is somewhat broader than noun sense 1 of 'position' in WordNet; WN 'location' 1. (992) location - (a point or extent in space) WN 'position' 1. (39) position, place -- (the particular portion of space occupied by something; "he put the lamp back in its place") be14f511-9c29-11b1-9dad-c379636f7270 location location location1n position position position1n place place place3n Each Attribute is an entity that has an AttributeType and some form of AttributeValue; it can serve as the value of a 'hasAttribute' relation. There are three subtypes of Attribute: QuantitativeAttribute, QualitativeAttribute, and IntensiveAttribute. In COSMO, the representation of 'attributes' (properties in informal terms) includes two or three aspects, depending on whether the Attribute is qualitative or quantitative, respectiely: (1) the AttributeType (Color, Length, Flexibility). The AttributeType specifies the kind of attribute that is being represented. Every instance of Attribute must specify the AttributeType (2) the AttributeValue (Color -Red; Length - 10 feet; Flexibility - high) for quantitative attributes (10 feet, 30 pounds) the AttributeValue is composed of both a number and a UnitOfMeasure. The UnitOfMeasure values include 'Dimensionless', a pure number (e.g. as an attribute of 'Cardinality' for a Group) In the case of quantitative attributes, rather than pointing from an instance of Attribute to a QuantitativeAttributeValue, the relations 'hasUnit' and 'hasQuantifier'can point directly to the UnitOfMeasure and the Quantifier. An instance of QuantitativeAttributeValue can be represented as the UnitOfMeasure and the quantifier, separately, specified by relations 'hasUnit' and 'hasQuantifier'. If the implementation allows use of functions, a QuantitativeAttributeValue can be represented as a function term such as {25.6 feet}. For QualitativeAttributes the AttributeValue may be directly represented. For IntensiveAttributes, the AttributeValue can have interal-type intensity values such as 'Low', 'Medium', 'High'. The type of an Attribute is specified as the value of the 'hasType' relation. Corresponds to a combinatiin of noun senses 1 and 2 of 'attribute' in WordNet: 1. (2) property, attribute, dimension - (a construct whereby objects or individuals can be distinguished; "self-confidence is not an endearing property") 2. (1) attribute - (an abstraction belonging to or characteristic of an entity) attribute attribute1n attribute2n Every Group consists of one or more entities considered as one unit, and is related to the component entities by the relation 'hasComponentElement'. A Group is not an abstract or mathematical concept - every group derives its properties solely from the entities that are its component elements. Thus a group of solid objects would be a solid object, and the mass of that object would be equal to the sum of the masses of the component objects. It has *some* similarity to the 'mereological sum' of mereologists. However, a Group may have component elements of very diverse kinds - there is no restriction on the membership of a Group, though one element can only count once in the cardinality of the group. A Group is somewhat similar to a Cyc 'Group', but is not restricted to physical things, and has relations to its members named differently than in Cyc. NOTE: A Group that has one component element is identical to that single element; in this respect it is similar to the mereological notion of a 'mereological sum'. The only group that can have itself as a component element is the group of one element. This latter property is the peculiar characteristic of this concept of 'Group', in contrast to other aggregates except, as noted, for 'mereological sum'. This concept of 'Group' makes certain representations covenient. In some cases, we want to define a function that may return one or more elements, but if there is one element, we also want that single element to be identical to the single element, and not encapsulated in an enveloping element. Returning a Group will allow that behavior. Note that a relation on a Group that can be applied to individuals (i.e. is not specifically defined on the type 'Group' or a subtype thereof) will only sometimes apply both to the Group and to its idividual elements. For example, if a Group is wholly located in some Place, then each element is wholly located in that Place. But the Group may have a mass, and no element will have thesame mass if the Group has more than one element. Those relations will have to be specified for each relation individually, where such a relation holds. Cyc Documentation for 'Group' (**NOTE*** some differences from COSMO 'Group'. In Cyc a Group must consist of Temporal Objects, but in COSMO it is more general. The Group membership relation also differs.) OPENCYC 1: MAY 23, 2002 A collection of temporal objects. Each instance of #$Group is a composite object made up of one or more individual objects or events. A group is related to each of its members by the predicate #$groupMembers (q.v.) [COSMO: 'hasComponentElement'] Note that instances of #$Group are _not_ collections. A group has temporal extent [COSMO: a Group may be abstract] and might have spatial location, while a collection is timeless and nonspatial. It is of course possible to define a collection parallel to any given group, so that the instances of the collection are exactly the group-members of that group; e.g. each toe on my left foot (and nothing else) is both an instance of the collection of my left toes and a member of the group of toes on my left foot. But that group (of my left toes) is a spatiotemporal thing while the correlated collection (of my left toes) is not. Similarly, if a certain flock of pigeons is considered as having a location, a spatial extent, and a time of existence, then the flock is being considered a _group_ and not a collection. Finally, unlike a collection, a group cannot be empty, but must have _at_least_one_ group-member. As a default, a group whose group-members all are instances of #$SomethingExisting is itself an instance of #$SomethingExisting, and a group whose group-members all are #$Events is itself an #$Event. Instances of #$Group include #$QueensGuard, #$ThreeWiseMen, #$SantasReindeer, and #$InternationalCommunity. A CompositeConcept is a Group that consists of component elements of different basic types, such as a System (which see). The notion of a CompositeConcept provides a way to represent things like situations that have essential elements of different type (such as States and FunctionalProcesses). A TimePoint is a closed interval of time having zero length. The beginning TimePoint and Ending TimePoint are identical for any given TimePoint. The representation of a TimePoint as a zero-length time interval is only an alternate view of a TimePoint. (=> (isanInstanceOf ?TP TimePoint) (and (hasStartingTimePoint ?TP ?TP) (hasEndingTimePoint ?TP ?TP))) A TimePoint is classified here as a subclass of TimeInterval because we adopt the interpretation that a time interval of zero length duration is indistinguishable from a time point. We know from special relativity that time may proceed at different rates in objects that are moving relative to each other, so all time values must be relative to some clock. In the absence of any explicit clock designation, the NIST atomic clock signals transmitted from Boulder Colorado are considered as the clock of reference. A TimePoint may be represented by a limit expression, e.g. 'before Jan 1 2008', or by a range ('some time point between Jan 1 200 and Jan 1 2008'). This allows incomplete time information to be entered when not known exactly. This may be implemented by a functional expression, but is not yet formalized in COSMO version 0.44. ******* COSMO NOTE on BFO 'TimeInstant' ************ COSMO note: in COSMO, time points are subtypes of TimeInterval, so the 'disjoint' relation in BFO between TimePoint and TimeInterval was removed. BFO: owl:disjointWith rdf:resource= '#TemporalInterval' BFO rdfs:subClassOf rdf:resource= '#ConnectedTemporalRegion' BFO Definition: A connected temporal region comprising a single moment of time. BFO Examples: right now, the moment at which a finger is detached in an industrial accident, the moment at which a child is born, the moment of death ******* COSMO NOTE on BFO 'TimeInstant' ************ Corresponds to noun sense 6 of 'point' and sense 1 of 'point in time' and includes sensse 6 of 'time' in WordNet: 6. (9) point, point in time - (an instant of time; 'at that point I had to leave') WN 'time': 6. (35) clock time, time - (the time as given by a clock; 'do you know what time it is?'; 'the time is 10 o'clock') point point point6n point in time point in time1n time time time6n A specialization of the 'finishes' relation which points from a TemporalThing (TimeInterval or Event) to the TimePoint at which that TemporalThing ended. A specialization of the 'starts' relation which points from a TemporalThing (TimeInterval or Event) to the TimePoint at which that TemporalThing started. Corresponds to verb sense 6 and the temporal part of verb sense 2 of 'begin' in WordNet: 2. (58) begin, start - (have a beginning, in a temporal, spatial, or evaluative sense; "The DMZ begins right over the hill"; "The second movement begins after the Allegro"; "Prices for these homes start at $250,000") 6. begin -- (have a beginning, of a temporal event; "WW II began in 1939 when Hitler marched into Poland"; "The company's Asia tour begins next month") begin begin begin2v begin6v An Entity that has a beginning point in time and an ending point in time. The usage of this term in COSMO differs from the usage in OpenCyc, in that it does **not** include PhysicalObject as a subtype, though the two categories are not disjoint. The purpose of the cyc concept appears to be to permit relating both PhysicalObjects and Events to their time location. In COSMO, that purpose is served by the relation 'hasTemporalLocation' (which see) which has as its domain the union of Events and PhysicalObjects.and 'wasCreatedDuring' and 'wasDestroyedDuring', There is, however, a subtle issue in that the beginning and ending time of a 'TemporalThing' may be the same time, i.e. the instance may be an instantaneous time slice of a time-extended entity. Since in COSMO zero-interval extended entities are indistinguishable from point entities, this means that a '3-D' endurantist object can be an instance of 'TemporalThing' just as a HumanRole, a '4-D' perdurantist object can be an instance of the typically '3-D' Person. In Opencyc a 'TemporalThing' is very generic, it is anything that has a beginning point in time (and presumably an ending point, though it may not be known for existing things). Thus physical objects, which must come into existence at some time (perhaps the beginning of time), as well as events, are 'TemporalThings'. In COSMO, TemporalThing is reserved for TimeIntervals and Events, and PhysicalObjects are not classified as subtypes of TemporalThing. The creation and destruction time of PhysicalObjects will use different relations. OPENCYC 1: MAY 23, 2002 The collection of all things that have temporal extent or location, i.e. things about which one might sensibly ask When? . #$TemporalThing thus contains many kinds of things, including events, physical objects, agreements, and abstract pieces of time. Note that #$TimePoint is a specialization of #$TemporalThing, since time points have temporal location, although they arguably lack temporal extent. Abstract things that are timeless - such as mathematical sets, attributes, and numbers - are of course _not_ instances of #$TemporalThing. NOTE that although every TemporalThing must have a starting and ending TimePont, that notion is not represented as an existential restriction so that it will not be necessary to explicitly represent the starting and ending times of intervals whose starting and ending times can be calculated from the name. This is a pragmatic and implementational, not a theoretical consideration. 'Individual' is a Cyc concept used to distinguish abstract sets and collections (classes) from things that are individuals. Interestingly, groups of things can be individuals - if they are defined as distinct from sets (see 'Group'). About the only type in COSMO that could not be considered as a subtype of this type is 'SetMathematical'; but maost types are not listed as subtypes of 'Individual', though they could be - just to avoid confusing the ontology with mostly useless relations. Any instance that is considered as a 'unit' by the knowledge engineer can be made an instance of this type, which is not disjoint with anything other than 'SetMathematical' This class may be superfluous, but in COSMO is a convenient catch-all for some aggregate Types that would merely serve to clutter the top level and obscure the structure of the ontology if exposed at the top level directly under 'Thing'. Conversely, Some of the subtypes of the Cyc 'individual' have also been subclassed directly to 'owl:Thing' to expose those common concepts at the highest level, to make the structure of the ontology easier to see. NOTE that some of the concepts mentioned in the Cyc documentation differ significantly in COSMO from related concepts in Cyc. But the Cyc documentation is given here to describe how the similar Cyc notion of Group is described in that ontology. From OpenCyc: OPENCYC 1: MAY 23, 2002 #$Individual is the collection of all individuals: things that are _not_ sets or collections. Individuals might be concrete or abstract, and include (among other things) physical objects, events, numbers, relations, and groups. An instance of #$Individual might have parts or structure (including discontinuous parts); but _no_ individual has elements or subsets (see #$elementOf and #$subsetOf). Thus, an individual that has parts (e.g. #$physicalParts or #$groupMembers) is _not_ the same thing as either the set or the collection containing those same parts. For example, your car is an individual, but the collection of all the parts of your car is not an individual but an instance of #$Collection. This collection (unlike the car itself) is abstract: it doesn't have a location, mass, or a top speed; but it does have instances, subcollections, and supercollections. In partial contrast, the #$Group (q.v.) of parts of your car (while also not the same thing as the car itself) _is_ an individual that has location and mass. Another example: A given company, the group consisting of all the company's employees, the collection of those employees, and the set of those employees are four distinct things, and only the first two are individuals. Corresponds to noun sense 2 of 'unit' in WordNet: 2. (16) unit - (an individual or group or structure or other entity regarded as a structural or functional constituent of a whole; 'the reduced the number of units and installations'; 'the word is a basic linguistic unit') unit unit unit2n 'ExternalReferringThing' is an artificial class created to provide a domain type for certain relations without referring to those specifictypes. This is solely an administrative tactic to improve modularization of the ontology connected_spatiotemporal_region BFO Definition: A space time region that has temporal and spatial dimensions such that all points within the spatiotemporal region are mediately or immediately connected to all other points within the same space time region. Examples: the spatial and temporal location of an individual organism's life, the spatial and temporal location of the development of a fetus. @ToDo: COSMO note: in COSMO, the type TimePoint (instant) is a subtype of TimeInterval, whereas in BFO interval and instant are disjoint. The BFO interval, therefore must be a non-zero length. For simplicity, COSMO does not yet have a non-zero-length instant (no need yet), and when that is added the BFO 'SpatiotemporalInterval' neeeds to be equated with the non-zero-length interval, and the subtype relation of 'SpatiotemporalInstant' and 'SpatiotemporalInterval' must be removed.. BFO Definition: A space time region that has spatial and temporal dimensions and every spatial and temporal point of which is not connected with every other spatial and temporal point of which. Examples: the space and time occupied by the individual games of the World Cup, the space and time occupied by the individual liaisons in a romantic affair. scattered_spatiotemporal_region Definition: A connected space time region at a specific moment. Examples: the space time region occupied by a single instantaneous temporal slice (part) of a process. COSMO note: It is unclear why this is not identical to a region of space at some particular moment. spatiotemporal_instant COSMO note: in COSMO instants are not disjoint from intervals, they are merely the limiting case of intervals of zero lenght. A 'proper interval' is a legitimate concept, but would just be superfluos in COSMO, so this Type will include proper intervals and instants. BFO Definition: A connected space time region that endures for more than a single moment of time. BFO Examples: the space time region occupied by a process or by a fiat processual part spatiotemporal_interval A 'Scope' can be a physical area within which something operates or is effective, or a more abstract thing, such as a Context, as in the scope of some law. This is a broad and hetergeneous category use to represente the notions od 'range; or 'scope' or 'compass'. When posssible, more specific types should be used. Corresponds to noun sense 1 of 'range' and sense 1 of 'scope' in WordNet: 1. (47) scope, range, reach, orbit, compass, ambit - (an area in which something acts or operates or has power or control: 'the range of a supersonic jet'; 'the ambit of municipal legislation'; 'within the compass of this article'; 'within the scope of an investigation'; 'outside the reach of the law'; 'in the political orbit of a world power') range range range1n scope scope1n COSMO: Context is a very general class of entities that can affect the truth of a logical sentence; within any given Context, the factual assertions should all be logically consistent. A Context may be relevant to the internal states and processes of a computational system, or may more generally describe the broad situation in which an Agent finds itself when processing information for the purpose of making a decision. For the latter agent context, the subtype 'SituationalContextComponent' is relevant. A Context can be a time interval, location, belief system, fictional world, theory, hypothetical world, counterfactual situation, segment of text, DatabaseGroup, or the state of our own real world, among other things. Contexts can be nested, combined, or intersected. For example, a Context consisting of a TimeInterval can be intersected with a Context consisting of a GeographicalArea to make a Context within with assertions are explicitly true only in that time and place. That does not mean, of course that the assertion cannot be true elsewhere; it just doesn't guranteee truth elsewhere. Every assertion in the COSMO ontology is implicitly true only in the context of the COSMO ontology, which is itself a theory. But that implicit qualification does not appear directly in any asertion - it can be explicitly mentioned if and when COSMO assertions are referenced in other ontologies. The nesting of Contexts provides a mechanism to create a 'lattice' of theories. In a subcontext for any given Context, all the assertions of the parent Context will be true in the subcontext, and additional assertions may also be true. In this respect, a Context is similar to the 'Microtheories' of the Cyc ontology system; it also has some resemblance to the 'Environments' discussed by Ballim and Wilks ('Artifical Believers', Lawrence Erlbaum, 1991). One specialized example of Context is a 'DatabaseGroup'. In a particular Organization, its set of Databases, if intended to represent some consistent group of facts, can be viewed and represented as a Context within which reasoning may be performed. NOTE that OpenCyc spatialThing does not necessarily have to be in our Space-Time; it can be in an abstract space. So this is not identical to DOLCE 'spatio-temporal-particular', which is a subclass. OPENCYC 1: MAY 23, 2002 The collection of all things that have a spatial extent or location relative to some other #$SpatialThing or in some embedding space. Note that to say that an entity is a member of this collection is to remain agnostic about two issues. First, a #$SpatialThing may be #$PartiallyTangible (e.g. #$Texas-State) or wholly #$Intangible (e.g. #$ArcticCircle or a line mentioned in a geometric theorem). Second, although we do insist on location relative to another spatial thing or in some embedding space, a #$SpatialThing might or might not be located in the actual physical universe. It is far from clear that all #$SpatialThings are so located: an ideal platonic circle or a trajectory through the phase space of some physical system (e.g.) might not be. If the intent is to imply location in the empirically observable cosmos, the user should employ this collection's specialization, #$SpatialThing-Localized. A #$SpatialThingTypeByDimensionality and a specialization of #$SpatialThing, each instance of which is either a one- or two- or three- (or higher-) dimensional spatial object. Examples include tangible or intangible spatially-localized dimensional objects, such as the edge of a tabletop, the surface of the tabletop, and the table itself, as well as abstract geometrical objects that are at least one-dimensional, such as a Platonic circle or cube. Specializations of this collection include #$ExtendedSpaceRegion, #$ShapedThing, and #$TwoOrHigherDimensionalThing. A #$SpatialThingTypeByDimensionality and a specialization of #$SpatialThing, each instance of which is either a two- or three- (or higher-) dimensional spatial object. Examples include tangible or intangible spatially-localized polydimensional objects, such as the flat surface of a tabletop and the table itself, as well as abstract geometrical objects that are at least two-dimensional, such as a Platonic cube. Specializations of this collection include #$PartiallyTangible, #$BilateralObject, and #$TwoDimensionalGeometricThing. A PhysicalObject is an Object that has mass. The mass is relativistic, i.e. the Object does not have to have rest mass; so, a photon and other fundamental particles are 'PhysicalObject's, just as are the ordinary objects like rocks, baseballs, and automobiles. In COSMO some *quantity* of substance (e.g. the water in a glass of water) is also a PhysicalObject (more specifically, an instance of the subtype 'LiquidObject'). Quantities of gas are also PhysicalObjects (more specifically, 'GaseousObject's such as the 'EarthsAtmosphere'). NOTE that a PhysicalSubstance such as Air or Water is not a PhysicalObject, but is the material of which PhysicalObjects consist. See 'PhysicalSubstance' for more detail on the relation of substances and objects in COSMO. Because the determining characteristic of a PhysicalObject is that it has some mass, COSMO has a restriction that all instances of PhysicalObject must specify the mass, using the relation 'hasMassInGrams'. This can be a nuisance when the mass is unknown, and the convention is adopted that a mass of '-1' will be interpreted as an unknown mass. The mass figures can be very approximate - at the OWL phase, the value of the relation 'hasMassInGrams' should be interpreted as only an approximation within an order of magnitude. When more precise mass figures are needed, the relation 'hasMass' can be used (with an instance of MassMeasure as the value), and this relation allows specifying a range of values, or a statistical variance for the numberical portion of the mass value. Using 'hasMass' does not (in the OWL version) eliminate the need to specify some mass by the 'hasMassInGrams' relation, but it soed allow the specification of units of measure other than grams and number ranges for the quantifier. NOTE on '3D' vs '4D' objects: Some ontologists prefer to represent PhysicalObjects as extended in time, thereby forming a '4-dimensional' object ('perdurantism'). Others prefer only 3D objects ('endurantism'), with the time explicitly specified when relations hold on an object. In COSMO this category of 'PhysicalObject' is indeterminate as between a Perdurant and an Endurant - that is, the instances are not necessarily zero-duration time slices, nor are they necessarily time slices of finite duration. An instance of 'PhysicalObject' can be used in relations where the valid time interval for the relation is explicit, in which case it behaves syntactically like a 3D object; or an instance can also be specified to be an instance of 'TimeSlice', in which case that instance is a 4-dimensional TimeSlice of a PhysicalObject, and any relations defined on that 4D instance hold only during the TimeInterval of the TimeSlice. See 'TimeSlice' for more detail on that type and its use. As a result, Roles such as 'Student', which are TemporalThings with a beginning and end time, can be classified as subtypes of this category. Corresponds to a supertype of noun sense 1 of 'object' in WordNet; this COSMO type includes Objects that are not visible, as long at they have mass: 1. (64) object, physical object - (a tangible and visible entity; an entity that can cast a shadow; "it was full of rackets, balls and other objects") object object object1n hasMassInGrams relates an Object to its mass measured in grams. This is a shortcut to using more general functional mass measures, and is used here only for illustration, to permit some specifics in instances. The values given should be taken as crude estimates (order of magnitude estimates, possible error over 100%), particularly since no time interval is given by this relation. Relations expressing more exact values of mass have not yet (v0.45) been written in COSMO. This is mostly a placeholder for more meaningful relations. NOTE: for objects whose mass is unknown, a value of '-1' will serve as the code for 'unknown mass'. Since, as of v0.49, a mass value is required in COSMO for PhysicalObjects (mass is the characteristic property of PhysicalObjects), an explicit value must be provided even if it is unknown. If an approximate value can be guessed within +- 100% (as with human weights),a value should be entered so that the reasoner will have some information with which to make inferences. For example, a car mass of 1,000,000 grams (one ton) will allow the reasoner to infer 'too heavy for a person to lift'. Corresponds to verb sense 1 of 'weigh' in WordNet: 1. (19) weigh - (have a certain weight) weigh weigh weigh1v OPENCYC 1: MAY 23, 2002 The collection of wholly intangible individuals, a specialization of both #$Intangible and #$Individual. Instances of #$IntangibleIndividual are immaterial, and thus do not have mass, color, or other tangible qualities. Examples include mathematical objects (such as numbers, functions, and relations), attributes, time intervals, space regions, and events. Excluded are sets and collections because, although intangible, they are not individuals. IntangibleIndividual A MentalObject is an Object that does not have mass and was created by an IntelligentAgent (usually a Person.or Organization). This is a very broad and primitive category comprehensible mostly by inspection of a list of subtypes. Since this is not physical, instances of this Type are not observable, but physical representations of instances of this Type (such as a specific copy of 'Gone With the Wind') can be weighed and felt. Abstract texts, musical compositions, propositions, theories, plays, poems, speeches, rights - all are MentalObjects. They will invariably have a physical representation in some PhysicalObject (including brains, light waves and sound waves). But the MentalObject itself has no physical (material) component. This corresponds closely to what in some systems (e.g. the Ontology Works top ontology) is called an 'AbstractArtifact' - something created by a Person that is not a PhysicalObject. We adopt the convention that an individual MentalObject exists only so long as there is some PhysicalObject that represents it. That PhysicalObject could be the brain of a Person, some sound or electromagnetic waves encoding that MentalObject, or some piece of paper with markings on it. When the last physical object representing that MentalObject ceases to exist, that MentalObject also ceases to exist. A new MentalObject indistinguishable from a previously existing one can always be created (even by the original creator), but it would be a different individual with a different identity. NOTE that a MentalObject is a subtype of 'AbstractEntity', but we adopt the convention that it can hava a location in space-time, being the collection of locations where its physical representations are located. Thus a Belief or a Proposition may be located in the brain of one or more IntelligentAgents, or in physical documents describing the belief symbolically. This 'location' differs from the location of any individual physical object, because the location is the collection of all physical objects containing representations of the Mental Object. This notion of 'abstract' is not the same as the traditional 'abstract' which cannot be located in space-time. Other subtypes of 'AbstractEntity' such as MathematicalObjects will be more traditionally abstract in that way. An idiosyncratic 'location' for a MentalObject is the location of a GeopoliticalEntity, which is located in the region controlled by the GeopoliticalEntity. Equivalent to the Cyc #$Artifact-Intangible OPENCYC 1: MAY 23, 2002: A specialization of both #$IntangibleIndividual and #$Artifact-Generic. Each instance of #$Artifact-Intangible is an intangible thing intentionally created by an agent or agents. Important specializations of #$Artifact-Intangible include #$ComputerLanguage, #$ConceptualWork, and #$Agreement. This is the most general Type in which to collect patterns of different kinds - visual, sound patterns, numerical patterns, behavioral patterns, etc. In COSMO, a Pattern is a Specification, which means that it is a kind of MentalObject. That means that Patterns do not have existence unless created by IntelligentAgents. This will probably seem odd to some people, who would prefer to think that patterns have an independent existence - especially when geometric figures are subtypes of 'Pattern'. At this point, there is no reason to classify Patterns in any way other than as specifications that people create to classify some types of relations that obejcts within groups of things may have to each other. If some reason is presented to consider patterns as independent of the way people use them, that may be a different concept, or may warrant reclassification. This is the most general Type in which to collect visual patterns - geometric designs, fingerprint patterns, artifact structural patterns, appearances, shapes, outlines, etc.. NOTE that an abstract image itself (e.g. an image of a fingerprint) can be a pattern. A subcollection of #$SpatialThing. Each instance of #$GeometricallyDescribableThing is a spatially-connected spatial thing (of 0, 1, 2, or 3 dimensions) that either (i) has or approximates a simple geometric shape (e.g. it is a #$Line or a #$Hemisphere) or (ii) consists of a number of (connected) parts in a relatively stable geometric configuration, where each such part has or approximates a simple geometric shape (e.g. a table consisting of a 3-D-disc-shaped top and four cylindrical legs). A #$GeometricallyDescribableThing might be tangible (see #$PhysicalObject) or intangible (see #$GeometricallyDescribableThing-Intangible). Note that what counts as approximating a given simple geometric shape -- and thus what spatial things count as #$GeometricallyDescribableThings - varies with context. In a context that was so fine-grained shape-wise that even the shapes of the individual molecules on the surface of an object were considered relevant to the object's shape, perhaps nearly every (connected, solid) tangible object would be geometrically-describable. In more everyday contexts, on the other hand, an unopened can of soup would be geometrically-describable (as a cylinder), while a telephone or an animal's body would probably not. bd58c42e-9c29-11b1-9dad-c379636f7270 A specialization of both #$GeometricallyDescribableThing and #$IntangibleIndividual (qq.v.). This is the collection of all intangible, geometrically-describable things, whether spatially localized or not. #$GeometricallyDescribableThing-Intangible is the intersection (see #$collectionIntersection) of #$GeometricallyDescribableThing and #$Intangible. Examples include any spatially-connected, intangible thing that has or approximates (or which consists entirely of parts that all have or approximate) a simple geometric shape, such as the intangible space determined by a particular Egyptian pyramid, an abstract Platonic sphere, or the center of mass of the solar system (a point) at the first instant of the Twentieth Century in Greenwich, England. Important specializations of this collection are #$GeometricThing-Localized (which includes all spatially localized instances) and #$GeometricThing-Abstract (which includes all instances not spatially located in the empirically-observable universe). c12c73ef-9c29-11b1-9dad-c379636f7270 An instance of #$GeometricShapeType and a specialization of #$GeometricallyDescribableThing-Intangible and #$HomogeneousExtendedSpaceRegion (qq.v.). This is the collection of geometrical figures, conceived of as bounded (one- or higher-dimensional) regions of space. Neither a single point (see #$GeometricalPoint), nor a sum of scattered points, is an instance of #$Figure-Geometrical. Note that this collection includes line segments, but not unbounded lines. An important specialization of this collection is #$PlaneFigure-Geometrical. The class of all geometric figures, i.e. the class of all abstract, spatial representations. Instance of GeometricFigure are abstract mathematical objects which can be considered as independent of anything in our material universe. They are therefore not MentalObjects, which must be created by people. The instances of this class are GeometricPoints, TwoDimensionalFigures or ThreeDimensionalFigures or any other Object that can be represented as being a distribution of points, lines, planes, volumes, or hypervolumes in some abstract space. be91f0ad-9c29-11b1-9dad-c379636f7270 A specialization of #$Situation. Each instance of #$Situation-Localized is a situation whose temporal extent occurs at a specific location in space. Notable specializations of #$Situation-Localized include #$PhysiologicalCondition and #$Event-Localized. 71236476-8636-41d7-88b4-b7549eb3213c A FunctionalProcess corresponds to the linguistic intuition of something happening at some point in time, rather than something that has happened in some interval of time, which is an Event. Intuitively, it may be considered as the time derivative of an Event: a Process occurring over some interval of time gives rise to an Event, which is a change (or series of changes) in the properties of some Objects during some interval of Time. Every FunctionalProcess is intimately associated with some Event as one of the components of that Event (see 'Event'). NOTE that this differs from the notion of 'process' used in Cyc, where a Process is a kind of Event that can be subdivided and still result in an Event of the same kind. In COSMO taking some temporal part of a FunctionalProcess does not necessarily result in a FunctionalProcess of the same kind. **NOTE** A FunctionalProcess may also be defined, not by specifying the individual values of the fluents at points in time, but by specifying the manner in which a fluent can change over time. One specific example of this is a **differential equation** which can be used to take the value of a fluent at some starting point in time, and calculate the values at subsequent points in time. Thus a FunctionalProcess can have, as its TimeIndexedAssertion, a differential equation. This is an important difference between Event and FunctionalProcess. @ToDo: the specifics of how a differential equation are to be represented have not been elaborated as of v0.50. Formally, a FunctionalProcess is a Group consisting of one or more TimeIndexedAssertions, where each TimeIndexedAssertion is an InstantaneousState or PersistentState. Each State contains a Group of assertions specifying the values of the fluents that hold at that TimePoint; if only one Object is a participant in the FunctionalProcess, thre may be only one TimeIndexedAssertion in each State. A TimeIndexedAssertion can be a differential equation relating a fluent to time. Thus if, at some point in time, someone is Running, one can say that a Running process exists at that point, and that person is a participant in the process. The 'existence' of an instance of Process at some time point implies that some Event has taken place (or is taking place) in the time interval including that time point, and vice-versa, each Event implies existence of some corresponding FunctionalProcess at every time point during the interval between the beginning and end of the Event (**but see next paragraph**). But for linguistic purposes, it may be more convenient to represent just the Event or just the FunctionalProcess, and not explicitly represent the corresponding entity, which is nevertheless implied. The list of States over time has some similarity to a ValueTimeEntry, though the former relates the state assertions themselves, rather than the values. **It is possible for a FunctionalProcess to be discontinuous, such as an 'eating' process during which one is not actually ingesting anything - perhaps reading a paper in the intervals between taking bites of a meal; or a 'going to school' process during which one sleeps, watches television, etc., other than actually being in the school or studying. One may formally say that the process continues int the intervals when the relevant fluents are not changing, but that the intervals between actual progression of the process each consists of a null process (PersistentState) which is part of the whole process, and give rise to null events which are parts of the whole event.** The term 'process' has been often used to refer to Procedures, (see 'Procedure') which are specifications for some sequence of actions that accomplish a goal. That is a distinct, though somewhat related concept. In some ontologies, (such as Cyc) a 'process' is a type of Event which has some uniform character throughout the Event. Because of the variant usage, the bare term 'process' is not used in this ontology to avoid confusion. Thus this base Type is called 'FunctionalProcess' to specifically refer to its similarity to a mathematical function. It resembles a mathematical function in certain respects: a FunctionalProcess can be said to describe the state of some system as a function of time. Like a function, a FunctionalProcess can have properties, and one important property will be the Rate at which the represented change is occurring. A characteristic of a FunctionalProcess is one can specify a Rate at some time point, or an average rate in some time interval. There is no corresponding Rate that can be specified for an Event, even though the two concepts are otherwise very similar. Most ontologies deal with Events, and ignore Processes of this type. For representing certain linguistic phrases, however, this type is better suited than the Event type. Most FunctionalProcesses are not represented explicitly in COSMO at version 0.3, but when needed may be generated by a function (not yet defined) that takes an Event and returns the Process that is operating to generate that Event. One issue not yet dealt with in COSMO v0.3 is whether a function that can generate a Process from the corresponding Event can handle Events whose definition specifies more than one Fluent as changing during the Event. In such cases, to have a clear relation, the multiple fluents must be ordered similarly in the representation of the Event and its corresponding FunctionalProcess. An Event in COSMO can be represented as a Group of component subevents, or as a Group of TimeIndexed Assertions, each of which specifies some property of one or more compnents of the system, in some time interval. The grounding of the meaning of an Event rests on the specification of the properties and relations ('fluents') of the Objects participating in the Event at times during the course of the Event; this is accomplished by specifying a Group of 'TimeIndexedAssertion's, which in aggregate represent the changes to the fluents of one or more objects over some interval of time, and containing the component elements: (1) InstantaneousState at the starting time (2) InstantaneousState at the Ending time (3) The FunctionalProcess that describes the intermediate states between the starting and ending times. Events that are represented as a Group of subevents do not need to specify the FunctionalProcess, but should specify the starting and ending InstantaneousStates. **Informally**, a state,process, or event in COSMO is interpreted as the set of *values* of some 'fluents' (attributes or relations that may change over time), but the actual *formal* representation is a Group in which the group elements are the *TimeIndexedAssertions* specifying the values of the fluents pertaining to some Group of Objects, at some TimePoint or TimerInterval. he differences between State, Process,and Event are: State: The Group of Assertions that hold at one time point (InstantaneousState), or persist without change of value over some contiguous interval of time (PersistentState). No value can change within a State. NOTE that one can represent the state of an individual relation or attribute for some Object, without specifying how other attributes may or may not change. Therfore one can, for example, represent a Feeling as a PersistentState that continues without change in value over some interval of time, while other attributes or relations on the same Person change dramatically. Each attribute of each Object represented in a State can be represented as a State separately from the states of other Objects. FunctionalProcess: The full set of LinguisticAssertions specifying the values of fluents at each time point or smaller TimeInterval within a TimeInterval in which the Process is defined. The set of LinguisticAssertions relate times to values,and in that respect is analogous to a mathematical function. In analogy to a mathematical function, one can derive a 'rate' for a Process (in cases where the values are quantified) by taking the ratio of (difference in value) to (difference in time) for any TimeInterval in which a change of value is specified. This rate may change from time to time during a FunctionalProcess. **NOTE** A FunctionalProcess may also be defined, not by specifying the individual values of the fluents at points in time, but by specifying the manner in which a fluent can change over time. One specific example of this is a **differential equation** which can be used to take the value of a fluent at some starting point in time, and calculate the values at subsequent points in time. Thus a FunctionalProcess can have, as its TimeIndexedAssertion, a differential equation. @ToDo: the specifics of how a differential equation are to be represented have not been elaborated as of rev837. **Linguistically** an Event may be labeled by a verb or a noun. The arguments to an event (e.g. the participants) may be implied by use of some linguistic terms (e.g. 'skating' implies the use of skates as a tool). Any given event type may subsume many subtypes, each being an Event with some different type of participant. Whether or not to represent such subtypes explicitly will depend in part on whether the participants are mentioned explicitly in a linguistic text, or whether there are linguistic terms that implicitly assume a certain type of participant. As of rev835, there is no systematic criterion for deciding whether to explicitly represent events with a certain type of participant as subtypes of the more general type, other than whether there are English words that imply a certain type of participant without that participant being mentioned explicitly in text (e.g. 'Baking' is a subtype of 'HeatingProcess', using an Oven as an instrument). Event: focuses on the values of the fluents at the beginning and ending of some TimeInterval, but also includes the FunctionalProcess that specifies the fluent values at times between the beginning and ending. Since the focus of an Event is on the change from one time point to the next, one cannot specify a 'rate' in the same sense as for a FunctionalProcess, where the rate may change many times during the FunctionalProcess. For an Event, one can derive a single 'rate' value that specifies the overall ratio of change of fluent value to time, between the beginning and ending points, and for any instance of Event, only one such 'rate' can be defined. Although logically included in each Event are the starting and ending times, (see relations hasStartingTimePoint and hasEndingTimePoint), these may not be known, and creating an instance of Event does not require specifying those times if not known. NOTE that the FunctionalProcess which is a component of the Event *contains* all of the elements contained in the Event, in that it contains itself, and also contains the states at the beginning and end. While *containing* all of those elements, however, it is nevertheless a distinctly different concept, since the 'Event' specifically selects out of the FunctionalProcess the beginning and ending states as characteristic of the Event. The Event is not a FunctionalProcess, but *contains* a FunctionalProcess as a component element. A FunctionalProcess can be derived from an Event, and an Event can be derived from a FunctionalProcess that is defined over some interval of time. A 'FunctionalProcess' that has only one time point in it also represents a special kind of Event, the limiting case of an InstantaneousState. NOTE also that an instance of FunctionalProcess that is defined by a mathematical function relating properties to time must have associated with it some time interval during which it is asserted to be valid, in order to be an instance. NOTE also that this representation of Event does not resemble a perdurantist 'history' which focuses on some region of space-time. Regions of space-time are represented as 'SpatiotemporalRegion' in COSMO, but the only spatial regions of relevance to an Event are those that can be derived from the locations of the Objects that participate in an Event. The significant conceptual components of an Event are the properties ('fluents') of the Objects that participate in the Event, and insofar as the locations of the Objects may be, but are not necessarily, represented in the Event, those locations may be significant, but except in Events solely depicting motion, the locations are incidental rather than central to the changes represented by the Event. Each Event represents one or more changes that occur to the attributes or relations ('fluents') of one or more objects during some defined interval of time (or for abstract Events, within some interval on the dimension of causality); the net changes are represented by the state at the beginning of the event and the state at the end of the Event. In the physical world, real Events typically have multiple intermediate stages, and nothing occurs instantaneously, but some non-physical Events such as a change of title for a Person may occur at a precise moment by prior arrangement. The representation of intermediate stages of an Event can be explicit, with the included events related to the whole event by the 'hasSubEvent' relation or 'hasTemporalPart' relation. The first can be more specific about one of serveral fluents that vary during an event. The temporal part relation between Events must relate a subevent that includes alll of the fluents represented in the whole Event. Each Event includes implicitly a Process that specifies the course of each fluent between the start and end times. At this point (v0.39) there is no explicit representation of the included Process, but each FunctionalProcess will, if represented explicitly, have an associate time granularity indicating the minimal intervals over which the change in the fluents are represented. The size of the granularity intervals during which FunctionalProcess states are represented will depends on the discretion of the ontologist for the purposes of the representation. COSMO note: note that in some ontologies (and situation logics) , 'Event' is used to refer to a change in state that is considered instantaneous. In COSMO, such an 'Event' is a subtype of the more general event, which is a change in state that occurs over some interval of time (which, for instantaneous changes would be a zero-length time interval). NOTE also that for some Events, such as cyclic Events, merely representing the starting and ending states - which may be identical - loses the whole meaning of the Event; so intermediate states must also be represented in some manner to provide meaning to the Event. Called: Event(Cyc); Process(SUMO); event(DOLCE); Processual(SPAN-BFO) ************ NOTE on BFO 'Process' ****************************** COSMO: BFO the Type most closely representing COSMO 'Event' is 'Process', so that BFO type is made synonymous with ''Event'. BFO makes teh distinction between 'Fiat' events (FiatProcessPart = parts of events) and complete events. This Type represents the complete Event with well-defined beginnings and ends. The FiatProcessPart event is included for compatibility, though not yet used. BFO ('Process') Definition: A processual entity that is a maximally connected spatio-temporal whole and has bona fide beginnings and endings corresponding to real discontinuities. BFO Examples: the life of an organism, the process of sleeping, the process of cell-division ************ NOTE on BFO 'Process' ****************************** Cyc comment: An important specialization of #$Situation and thus also of #$IntangibleIndividual and #$TemporallyExistingThing (qq.v). Each instance of #$Event is a dynamic situation in which the state of the world changes; each instance is something one would say happens . Events are intangible because they are changes per se, not tangible objects that effect and undergo changes. Notable specializations of #$Event include #$Event-Localized, #$PhysicalEvent, #$Action, and #$GeneralizedTransfer. #$Events should not be confused with #$TimeIntervals (q.v.). The temporal bounds of events are delineated by time intervals, but in contrast to many events time intervals have no spatial location or extent. COSMO note: 'Event' was merged with Cyc 'PhysicalEvent' and Cyc 'Event-Localized' The Cyc 'StrictlyMentalEvent' is classified as a PhysicalEvent in COSMO. Cyc: (PhysicalEvent') A specialization of #$Event-Localized. Each instance of #$PhysicalEvent is a spatially localized event involving one or more physical objects or stuffs. #$PhysicalEvents typically involve interaction among #$PartiallyTangibles. But note that a physical event might consist in the creation, destruction, movement, or a change in some physical feature of a single salient physical object. (See #$PhysicalCreationEvent, #$PhysicalDestructionEvent, #$MovementEvent, and #$IntrinsicStateChangeEvent.) For a contrasting (though not necessarily disjoint) collection, see #$StrictlyMentalEvent. For events that have both physical and mental components, see the collection #$CompositePhysicalAndMentalEvent. Cyc ('Event-Localized'): A specialization of #$Event. #$Event-Localized is the collection of all events that occur at a specific location in space. Notable specializations of #$Event-Localized include #$PhysicalEvent and #$AnimalActivity. bd58800d-9c29-11b1-9dad-c379636f7270 Each PhysicalSubstance is an abstraction representing the properties of aggregates composed of multiple small objects of a common type; the notion of a PhysicalSubstance includes any of the common 'substances' we encounter every day: water, air, sugar, salt, coffee (ground or as a drink), beer, meat, steel, plastic, etc., as well as less common substanes such as ion plasma and groups of elementary particles. Every PhysicalSubstance has some basic unit which is the smallest object that can be considered as composed of that substance. For chemical elements the basic unit is an atom; for chemical compounds, the molecule; for sand, one grain of sand, etc. For PhysicalSubstances that are composed of mixtures (e.g. concrete), the formal notion of a 'grain' is used, the 'grain' being the size of the smallest object composed of a substance, that can be subdivided so that the pieces are still objects composed of the same substance. The 'grain' will in general be eight times the size of the 'unit' (allowing division in any of three planes) , but for mixtures the 'unit' may be difficult to identify, and the 'grain' will be the only object identifed as characterizing the PhysicalSubstance. For mixtures, the size of the grain will depend on the sizes and proportions of the constituent objects. Thus in concrete, the grain will have to be at least several times as large as the largest pebble of gravel used in the mixture. Some quantity of a PhysicalSubstance will comprise a HomogeneousObject; in Cyc substances are represented as objects, comparable in meaning to 'HomogeneousObject' in COSMO. The commonly understood properties of substances such as water are characteristic only of aggregates of the basic units (atoms, molecules, grains). To approximate the commonly measured properties (boiling point, melting point, density, etc.) the number of basic units may need to be fairly large; this will also vary with the substance. As of v0.52 this issue is not addressed. This concept must not be construed as a physical object made of some substance (which is the way substances are represented in Cyc - see CycNote below).. PhysicalObjects which are relatively homogeneous (the atmosphere, the ocean) can be construed as consisting of one or more PhysicalSubstances, but they are not substances per se, but specific quantities of a substance, which is one way to view a PhysicalObject. For generality in COSMO, a 'PhysicalSubstance' is the material of which anything with mass is composed, including quantities of subatomic particles that are contained in a certain region of space (such as a plasma in a Tokomak, or a group of electrons in a particle accelerator). However, the term is usually applied only to 'ordinary matter' (solid, liquid, gas); in those cases the unit is an atom or molecule, and the 'grain size' of any PhysicalSubstance that is 'ordinary matter' must contain at least 8 atoms or 8 molecules (so that it can be divided in two in any axis and still have multiple units in the resulting parts). IMPORTANT NOTE: PhysicalSubstances are categorized by the main consitutent. Therefore 'SeaWater' is considered as a subtype of 'Water'. The pure chemical substances can be represented when desirable by creating a 'Pure' category under the general heading (or, if functions are used, by using a '(Pure X)' function.) Thus we have a Type called 'PureWater'. Steel with iron as the majority constituent might be considered as a subtype of 'Iron'. COSMO note: Because substances are represented in COSMO as Types (classes) rather than instances, the specification of properties of substances gets involved, and the intended meanings cannot be specified fully without the use of FOL. As placeholders, some relations between substances are specified, and in OWL these will be interprted as applying only to those specific Substances (Type that are instances of SubstanceType), while the intended meaning is that the relation applies not only to the particular Type but to all subtypes as well. The translation of the OWL ontology to FOL should carefully handle these placeholder relations to be sure they are translated properly. . The restriction on hasGrainDiameter for SubstanceTypes (which see) should require subclasses rather than instances of LengthMeasure - instances may have to be created as a workaround. (still not decided, v0.43). NOTE that a substance at some particular concentration is a subtype of that substance. To expresss that an object contains a particular concentration of a substance, one can create a subclass of that substance having the appropriate concentration attribute, and relate the object to that concentration of substance by the relation 'hasConstituentSubstance'. This representation solves some logical problems, but creates implementation problems in restricted logics such as OWL. COSMO uses relations such as 'hasComponentSubstance', which takes PhysicalSubstance types (instances of the metatype 'SubtanceType') as the 'range' restriction. There are also relations which have subtypes of 'PhysicalSubstance' (instances of 'SubstanceType') as the domain restriction. This can be accommodated in OWL. However, in order to have restrictions apply to subtypes of types, the OWL restriction mechanism interprets the restriction as applying to instances of the type (OWL class). There are no instances of PhysicalSubstance types in COSMO, and the restriction is intended to apply to the subtypes, not to instances. Such restrictions on PhysicalSubstances will have to be interpreted by applications as meaning that the substance represented by the class has those properties. One way to solve the problem might be to create a metatype for each substance Type (i.e. for each of millions of substances), and have the restriction apply to the metatype - but this duplicates Types as metatypes, and is unworkable. COSMO leaves the proper implementation to the application, at least until it is converted in to an FOL version, where the proper interpretations can be specified by rules. CycNote: In Cyc, PhysicalSubstance's are not represented by a tree in the hierarchy, but are represented by types that are physical objects ('Partiallytangible') and also instances of 'ExistingStufType'. In effect, Cyc considers a 'substance' as the type consisting of all PhysicalObjects that are homogeneous (down to a certain granularity) and having a certain composition. This can be translated into the COSMO representation at the type and instance level, but the Cyc metatypes are not represented in COSMO. See 'HomogeneousObject' Cyc: 'ExistingStuffType' A collection of collections, and a specialization of #$TemporalStuffType. Each instance of #$ExistingStuffType is a collection of things (including portions of things) which are both temporally and spatially stufflike. Division in time or space does not destroy the stufflike quality of the object (down to a certain granularity). (#$isa STUFFTYPE #$ExistingStuffType) implies both (i) for most instances STUFF of STUFFTYPE, for any proper physical part (see #$physicalParts) PART of STUFF, PART is also an instance of STUFFTYPE and (ii) for all instances STUFF of STUFFTYPE, for most proper physical parts PART of STUFF, PART is also an instance of STUFFTYPE. For example, every piece of wood is temporally stufflike: if W-168 is a piece of wood during 1996, then it's also a piece of wood for the one-minute time-slice 9:05am 7/7/96. It's also spatially stufflike: if we take that piece of wood W-168 and cut it in half, we have two things which are both pieces of wood. Since every piece of wood is both temporally and spatially stufflike, #$Wood is an instance of #$ExistingStuffType. Other instances of #$ExistingStuffType include the collections #$AppleJuice, #$IceCream, #$Diamond, #$WaxedPaper, and #$StriatedMuscle. See the comment for #$StuffType to learn more about the distinctions between, and the need for, these four collections: #$StuffType, #$ObjectType, #$ExistingStuffType, and #$ExistingObjectType. The senses 1 and 2 of 'matter' in Random House Webster are conceptually the same as this type, where COSMO interprets sense 2 is the most generic 'matter' of which the instances of sense 1 are subtypes: 1. the substance or substances of which any physical object consists or is composed: the matter of which the earth is made. 2. physical or corporeal substance in general, whether solid, liquid, or gaseous, esp. as distinguished from incorporeal substance, as spirit or mind, or from qualities, actions, and the like. Corresponds to noun sense 2 of 'substance' and sense 1 of 'stuff' and sense 1 of 'matter' and sense 1 of 'material' in WordNet; however, 'substance' is not related to 'stuff' and 'stuff' is not related to 'matter' in WordNet, and 'matter' is not used typically as a synonym of 'substance' in ordinary speech. This difference in usage reflects a difference in the way 'substances' are conceived - as either some abstract stuff of which objects consist, or of the collections of all objects of that composition, as in Cyc. COSMO chooses the notion of an abstract 'stuff'. A noun like 'matter' which, if it were taken to have a collective reading as 'all physical objects, collectively' would thereby conform to the Cyc method of representing PhysicalSubstance, and would then consistently be reinterpreted in COSMO as the same concept as 'PhysicalSubstance'. WN 'substance': 2. (4) substance - (the stuff of which an object consists) WN 'stuff': 1. (6) material, stuff - (the tangible substance that goes into the makeup of a physical object; 'coal is a hard black material'; 'wheat is the stuff they use to make bread') WN material: 1. (448) material, stuff - (the tangible substance that goes into the makeup of a physical object; 'coal is a hard black material'; 'wheat is the stuff they use to make bread') WN 'matter': 1. (41) substance, matter - (that which has mass and occupies space; an atom is the smallest indivisible unit of matter') matter material substance substance2n stuff stuff1n material material1n matter matter1n hasAttributeValue relates an Object or Substance or Event to some AttributeValue which the Object may have. Each AttributeValue will be a value for at least one AttributeType, but this relation does not specify the AttributeType. For cases where an AttributeValue may measure more than one AttributeType (such as LengthMeasure, which can specify length, width, height, altitude, distance, etc.), using this relation may leave ambiguity as to its precise meaning. COSMO Note: AttributeValues may be either classes (instances of AttributeValueType), or instances of AttributeValue. This allows one to express an attribute as a region (e.g. colors will bw classes, not instances, to permit subclassing), or for quantitative measures as instances (e.g. '25 feet'). For quantitative measures, the representation of measurements as classes would be conceptually permissible (the class representing the set of possible values, determined by the measured value and possible error), or as instances of measure to which an uncertainty value has been attached. The specific subrelations (subproperties, in OWL) of 'hasAttributeValue' will in some cases have their range restricted to AttributeValueType of AttributeValue. isAnAttributeValueOf is the inverse of 'hasAttributeValue'. This relation will be used explicitly only in special cases where particular AttributeValues are appropriately applied only to specific types of things. hasQualitativeAttribute relates individual Objects or substances to some qualitative attribute (a subclass of QualitativeAttributeValue) that the object has. The accurate use of this property for substances is difficult to express in OWL. Since Substances are classes, to describe a qualitative attribute of a substance, in OWL one would need a metatype specifically for each substance, which multiplies reified entities unnecessarily. A FOL rule would be easy to construct to correctly relate the substances to their properties, but for COSMO version 0.2 a work-around for such a rule is not yet on hand. The restrictions on substances should be interpreted as meaning necessary conditions on all subclasses of the substances. A QualitativeAttributeValue is the value of some AttributeType which is not expressed in quantitative measures. NOTE: without an objective quantitative measure, the meaning of many QualitativeAttributeValues can be very sensitive to context, in particular the type of thing that is being modified by the QualitativeAttributeValue, or the agent assigning the attribute (such as evaluative attributes - 'beauty is in the eye of the beholder'). @ToDO: it may be possible to specify some subtypes of QualitativeAttributeValue that are not context-sensitive (perhaps colors), but an analysis of this question has not yet (rev833) been performed. It can be an attribute of an abstract thing or of a concrete physical object. NOTE that adjectives expressing qualities in English often have a nominalized form: 'Red-Redness' or 'Beautiful-Beauty'. When linguistically to 'have @Att-nom' (@Att-nom is the nominalized form of an attribute) is the same as 'to be @Att' where @Att is the adjectival form, the concept will be represented only once, usually in the adjectival form, and nominalized form needs to be referenced to the adjectival by the linguistic processor. Corresponds most closely to part of noun sense 1 of 'value'and includes noun sense 2 of 'attribute' in WordNet: 1. (73) value - (a numerical quantity measured or assigned or computed; 'the value assigned was 16 milliseconds') WN noun 'attribute': 2. (1) attribute - (an abstraction belonging to or characteristic of an entity) value value value1n attribute attribute2n Each PertainingAttributeValue is an AttributeValue that is related to some other type by the relation 'pertainsTo'. The exact manner in which a 'PertainingAttributeValue' can be related to the object of the 'pertainsTo' relation can vary with the noun (often representing a type) that the adjective (represented by the PertainingAttributeValue) modifies. Thus an 'historical town' would be a town in which something of sufficient interest or significance occurred to justify the mention of the town in some history book; An American president will be some person who served as President of America (not just an American who was a President of some organization). The meanings of the individual 'pertaining' relations will vary with the word modified and the adjective modifying that word. . 'pertainsTo' relates an AttributeValue to some other type. This relation is used to relate AttributeValues that serve to represent adjectives to other types, so as to indicate that the word modified by the adjective is related to that other type in one of several direct ways. In dictionaries this relation is often expressed, in definitions of adjectives, by the phrase 'of or pertaining to'. In WordNet such adjectives are described as related to other words by the phrase 'pertains to'. For example, 'historical' pertains to 'history'. 'Physical-Material' is the attribute of objects that have mass, of energy, of space in out universe, of PhysicalSubstances, and of Events and processes that involve objects with mass. This is the attribute of phenomena that can be detected by measuring instruments, and are susceptible to study by experimental techniques because they follow physical laws. This is the sense used for types 'PhysicalObject' , 'PhysicalSubstance', and most other types that include Physical in the name. NOTE that 'material possessions' can include Money, which is neither a PhysicalObject nor a PhysicalSubstance, so 'Money' does not have this attribute, and 'material possessions' would have to be a defined term in itself. @ToDo: add it if needed. Because this includes physical Events, it does not correspond exactly to sense 2 of adjective 'material' in WordNet. Corresponds to adjective sense 3 of 'physical', and includes but is not rstricted to adjective sense 2 of 'material' in WordNet: 3. (6) physical - (having substance or material existence; perceptible to the senses; 'a physical manifestation'; 'surrounded by tangible objects') WN adjecgtive 'material': 2. (4) material - (derived from or composed of matter; "the material universe") . physical physical physical3adj material material material2adj hasParticipant relates an Event to the things (Objects, Substances) that participate in the Event in some role, as causative agents, or as instruments, or as products or in other roles (e.g. as witnesses). This is the most general 'case' relation that is conceptual rather than strictly grammatical. It can be used to express a relation between types or instances. It will usually be used to refer to past Events, but may refer to future or hypothetical Events.. Participants include the inputs and outputs of Events that are creation or destruction events. See, for example, 'produced'. COSMO note: Objects may 'participate' in an Event without being a 'patient', for example in a BeliefState the Belief involved is a participant in the Event, but the properties of the belief involved are not among the fluents that are affected by the Event. Rather, in that case, the relationship between the Agent and the belief is the fluent. the inverse of 'hasParticipant'. This relation points from an instance of Object (physical or abstract) to an Event in which the Object participated (in any role). hadResult relates a PhysicalEvent to something that resulted from that Event. This is the most general 'result' or 'creation' relation. See also 'wasCreatedbyEvent' and 'produced'. There may be many things resulting from a given Event (creation or destruction of something, initiation of a Process or another Event, a PersistentState). It is useful also to state a restriction on Event types, specifying the kind of result that an Event may or must have. This is a relation that is called 'result' in SUMO, and is one of the CaseRole relations in that ontology. The Inverse of 'hadResult'. isTheProductOf relates an Object (abstract or physical) to the PhysicalEvent in which it was created. NOTE that more than one Event can give rise to a specific product, therefore there may be more than one value of this relation on any given object or substance. produced relates an Event to something that is produced in the Event. It is the inverse of 'isTheProductOf'. NOTE that 'produced' does not necessarily mean 'created' in the sense that the thing produced did not exist before the Event: Bleeding is an Action that 'produced' Blood, and the Blood existed before the Bleeding, but it was part of an animal before the bleeding and became independent of the animal as a result of the Bleeding process (which is a subtype of EmittingStuff). Creating in the sense of something going from nonexisting to existing is represented by the subproperty 'causedCreationOf'. THe thing produced can be abstract, such as a Thinking event producing some InformationObject - which can be a Proposition or some AbstractRepresentatikonof a Proposition, e.g. an AbstractText. In Cyc, a similar but not identical relation is called 'outputs'. Cyc ('outputs'): This predicate relates a particular creation or destruction event to any of its outputs . (#$outputs EVENT OBJECT) means that OBJECT is an output of EVENT. That is, OBJECT is either created/produced as a result of EVENT (see the specializations #$outputsCreated, #$products, #$byProducts) or something left after another thing was destroyed in EVENT (see the specialization #$outputsRemaining). For example, silicon chips are both #$outputsCreated in and #$products of a chip manufacturing process, while a hunk of scrap metal is an #$outputsRemaining after a car is put through a crusher. When appropriate, instead of using #$outputs, use one of its specializations (of which those mentioned above are the nearest). Includes verb senses 1 and 2 of 'produce' in WordNet: 1. (76) produce, bring forth - (bring forth or yield; 'The tree would not produce fruit') 2. (42) produce, make, create - (create or manufacture a man-made product; 'We produce more cars than we can sell'; 'The company has been making toys for two centuries') produce produce produce1v produce2v because 'typicallyProduces' is a type-level relation that can be used to specify that most instances of an Event result in production of some type of Object or Substance - but is used at the type level so that there will be no need to specify an instance of the object produced, nor an automatic skolemization of such an instance 'produces' is a type-level relation that can be used to specify that every instance of an Event results in production of some type of Object - but is used at the type level so that there will be no need to specify an instance of the object produced, nor an automatic skolemization of such an instance. Includes verb senses 1 and 2 of 'produce' in WordNet: 1. (76) produce, bring forth - (bring forth or yield; "The tree would not produce fruit") 2. (42) produce, make, create - (create or manufacture a man-made product; "We produce more cars than we can sell"; "The company has been making toys for two centuries") produce produce produce1v produce2v An Event in which some Agent plays a causative role. NOTE that an Agent may cause an action indirectly and with a time delay, via some device - and that action, controlled largely by the device, is still considered as an Action of that Agent in COSMO. This means that the 'action' set in motion by an Agent may continue even after the death of the Agent. Thus, the fire in an oil burner, being controlled by the Agent that controls the oil burner, is considered as an Action here, even though the burner continues for a long time automatically. The Action in such cases of indirect and delayed effects extends from the time at which the Agent started the action until the end of the time when the predictable immediate consequences occur. At some point it will probably be worthwhile distinguishing the Action of setting a Device from the Events controlled by the device, but as of v0.43 that distinction is not encoded. For Actions directly including only the immediate motion of an animal and its direct, almost simultaneous consequences, use 'AnimalActivity'. NOTE that a MentalEvent such as a feeling or Emotion is also considered an Action,as it is performed by a CognitiveAgent. In different ontologies, the same notion has different names: Action(Cyc) IntentionalProcess (SUMO) action(DOLCE) Activity(ISO15926). NOTE: in COSMO we classify an 'Experience' as a subtype of 'Action' to indicate that the focus of the subject is an Agent, even though no Events external to the Agent may be caused by the Experience. Cyc comment: The collection of #$Events (q.v.) that are carried out by some doer (see #$doneBy). Instances of #$Action include any event in which one or more actors effect some change in the (tangible or intangible) state of the world, typically by an expenditure of effort or energy. Note that it is not required that any tangible object be moved, changed, produced, or destroyed for an action to occur; the effects of an action might be intangible (such as a change in a bank balance or the intimidation of a subordinate). Note also that the doer of an action, though typically an #$Agent (q.v.), need not be (e.g. a falling rock that dents a car's roof). Depending upon the context, doers of actions might be animate or inanimate, conscious or nonconscious. For actions that are intentional, see #$PurposefulAction and #$performedBy. SUMO: A 'Process' that has a specific purpose for the 'CognitiveAgent' who performs it. DOLCE: A Perdurant that exemplifies the intentionality of an agent. Could it be aborted, incomplete, mislead, while remaining a (potential) accomplishment ... The point here is that having a result depends on a method, then an action remains an action under incomplete results. As a matter of fact, if we neutralize intentionality, a purely topological, post-hoc view is at odds with the notion of incomplete accomplishments. Includes noun sense 1 of 'action' and sense 2 of 'thing' in WordNet: 1. (632) action - (something done (usually as opposed to something said); "there were stories of murders and other unnatural actions") WN 'thing' 2. (279) thing -- (an action; "how could you do such a thing?") WN 'act': 2. (26) act, human action, human activity - (something that people do or cause to happen) bd58a841-9c29-11b1-9dad-c379636f7270 action action action1n act act act2n thing thing thing2n A common term, also used in ISO15926, for 'Action'. A specialization of both #$Action (q.v.) and #$Event-Localized. Every instance of #$AnimateActivity is a spatially-localized action, each of whose doers (see #$doneBy and #$animateDoers) is either a #$BiologicalLivingObject or a group of BLOs (i.e. a #$Group all of whose members are BLOs). Specializations of this collection include #$AnimalActivity, #$BiologicalEvent, and #$PhysiologicalProcess. SUMO A normal process of an Organism or part of an Organism. 31d87aae-5580-41d7-8025-c8e9f7c3ffca NOTE: name changed in COSMO. In Cyc this is 'AtLeastPartiallyMentalEvent'. Cyc: A collection of events. Each instance of #$AtLeastPartiallyMentalEvent is an event involving the mental functions of a participant or group of participants (see #$actors) in that event. The collection includes such things as dreaming, perceiving, sensing, theorizing about something, having a realization, making a decision, building something, designing something, and consciously carrying out a task. Note that the above list includes both purposeful events and non-purposeful events that involve mental functions. Note also that any event that has a mental component is also an instance of this collection, so that events like preparing lunch would be classified as instances of #$AtLeastPartiallyMentalEvent. In entering knowledge, it is almost always possible and preferable to use one of the specializations of #$AtLeastPartiallyMentalEvent. If an event seems mostly mental in nature, modulo neurons firing and related brain activity, use #$StrictlyMentalEvent or one of its specializations. If it essentially involves both mental and physical activity, see #$CompositePhysicalAndMentalEvent or #$PurposefulPhysicalAction. For mental events that are intentionally and purposefully performed, see the specialization #$PurposefulMentalActivity. COSMO note: this appears to be similar to SUMO 'PsychologicalProcess', which is a subtype of Event. SUMO: A BiologicalProcess which takes place in the mind or brain of an Organism and which may be manifested in the behavior of the Organism. bd588615-9c29-11b1-9dad-c379636f7270 COSMO note: Every 'MentalSituation' is an Event, Process, or State that occurs in some Mind. Since every Mind is located in a Brain, MentalSituations also must occur in some Brain (meaning in some animal). Cyc: A specialization of #$Situation. Each instance of #$MentalSituation is a mental situation such as a person seeing the color red, or believing that his enemies control the CIA, or desiring that Fidel Castro shave his beard. An important subcollection of this collection is #$AtLeastPartiallyMentalEvent whice is the collection of mental situations that are events, such as thinking about something or tasting something. Other instances of #$MentalSituation are more long-standing and stable, and hence also instances of #$StaticSituation, e.g., believing something, or having some goal. Cf. #$MentalSituationFn. bee2989e-9c29-11b1-9dad-c379636f7270 A specialization of #$AtLeastPartiallyMentalEvent. Each instance of #$CompositePhysicalAndMentalEvent is an event that involves some mental event(s), as well as some interaction between physical objects. Each instance will thus have at least one #$PhysicalEvent as a sub-event. (It may or may not itself be an instance of #$PhysicalEvent, depending on whether it occurs at a specific spatial location.) Examples include a news broadcast program, a court trial, someone inheriting property, someone writing a letter, a physical examination, and a charity ball. Notable specializations of this collection include #$PurposefulPhysicalAction and #$SensoryEvent. bd588d27-9c29-11b1-9dad-c379636f7270 The collection of #$CompositePhysicalAndMentalEvents that are performed purposively (see #$performedBy). This collection is the collection-intersection of #$PurposefulAction and #$CompositePhysicalAndMentalEvent. Since each instance of #$PurposefulPhysicalAction is also an instance of #$CompositePhysicalAndMentalEvent, each instance has both a mental and a physical component. Driving a car would be an instance of #$PurposefulPhysicalAction since it involves mental and physical functioning on the part of the performing agent and is done purposively. Crashing a car, conversely, would not normally be an instance (unless the driver purposefully caused the crash). beb39562-9c29-11b1-9dad-c379636f7270 'hasIntendedAudience' relates a Communication to one or more IntelligentAgents to whom the agent performing the Communication intends to transfer information. The object of this relation may or may not be the same as the object of the 'hasEndingPlace' relation, if the Communication reaches its intended audience (and no others). . The transfer of information from one or more IntentionalAgents or Automatons (e.g. automated communications devices) to one or more other IntentionalAgents. NOTE that a Communication need not be linguistic, nor necessarily symbolic (such as gesturing). It can be an Action, such as putting on camouflage, that is intended to convey some information to another agent. So this is a broad range of actions, but there has to be an intention to convey information - inadvertently conveying information is not a Communication in this sense. The restriction requires that some InformationObject - an AbstractText or a Meaning - be specified as the content of the communication. If they are known, both the AbstractText and the propositional information content can be specified; the latter would use relation 'hasAbstractRepresentation'. NOTE that although Communication in SUMO is a SocialOccurence, in COSMO 'SocialOccurence' is restricted to humans, while Communication can be accomplished also by non-human IntentionalAgents. Some subtypes of Communication will be SocialOccurrences. COSMO NOTE: that 'Communication' in COSMO is a subtype of 'InformationTransferEvent' in which some IntelligentAgent must be the intented recipient. Not every creation of an Information BearingThing (IBT) is a 'Communication', but jotting a note for one's own purposes is a Communication, even if no one else is intended to see it, because there is an intended recipient - but the creator and recipient are the same agent. Communication(SUMO) communication-event(DOLCE) SUMO: ('Communication') A SocialInteraction that involves the transfer of information between two or more CognitiveAgents. Note that Communication is closely related to, but essentially different from, ContentDevelopment. The latter involves the creation or modification of a ContentBearingObject, while Communication is the transfer of information for the purpose of conveying a message. SUMO partitions 'Communication' into: Stating Supposing Directing Committing Expressing Declaring. SUMO: relatedInternalConcept Communication ContentDevelopment. In Cyc called 'Communicating': Cyc: A specialization of #$PurposefulAction and characterized by one or more #$InformationTransferEvent sub-events. Each instance of #$Communicating is an event in which the transfer of information between or among agents is a focal action; communicating is the main purpose and/or goal in the event. That may be contrasted with events which involve communication but wherein the focus is different, e.g., playing cards (wherein the progressive actions - and winning - of the game are focal). Since #$Communicating is a specialization of #$PurposefulAction, each #$Communicating event must be intentional on the part of the #$communicatorOfInfo; it may or may not be intentional on the part of the agent playing the #$infoCommunicatedTo role. Hence, a speaker on a soapbox haranguing an indifferent crowd is performing an instance of #$Communicating. In contrast, Juliet soliloquizing on her balcony, unaware that Romeo is listening to her, is not #$Communicating; rather Romeo (and Juliet, unaware) are engaged in an #$Eavesdropping. Communicating may be either a one-way or a two-way transfer of information (cf. #$CommunicationAct-Single, #$MultiDirectionalCommunication). Every event belonging to #$Communicating contains at least one transfer of information between at least two agents who participate in the event. (Note that the latter requirement excludes reading and writing from #$Communicating, when those events are just the private accessing or generating of information.) Communicating may be specialized in various ways, such as, by the method or medium used (e.g., #$AudioCommunicating, #$NonVerbalCommunicating, #$FaceToFacePresenceCommunicating); by the type of information involved (e.g., #$MakingAnAgreement); by the purpose of the communication (e.g., #$Teaching, #$Negotiating); by the agents involved (e.g., #$IntraOrganizationCommunication, #$StageProduction). Examples of #$Communicating include a symphony performance, an email message, a telephone call, a speech, a handshake, issuing a traffic ticket - all of which normally, and focally, involve communication between two or more agents. bd589f07-9c29-11b1-9dad-c379636f7270 The SUMO term for the general event of 'Communication'. hasRepresentation is the most general relation that points from some concept or thing - of any type - to another thing (abstract or physical) that represents it in some way. This relation will be used, if at all, less frequently than the more specific 'representation' relations, and may be useful primarily to collect those more specific relations in one location to make the representation relations easier to understand. The related relation 'hasURL' points to a datatype string that is the address of some file relevant to the subject entity. As a datatype relation, Corresponds aproximately to verb senses 1 and 2 of 'represent' in WordNet: 1. (39) represent, stand for, correspond - (take the place of or be parallel or equivalent to; "Because of the sound changes in the course of history, an 'h' in Greek stands for an 's' in Latin") 2. (30) typify, symbolize, symbolise, stand for, represent - (express indirectly by an image, form, or model; be a symbol; "What does the Statue of Liberty symbolize?") represent represent represent1v represent2v hasAbstractRepresentation relates some entity - concrete or abstract - to a MentalObject that represents - or contains a part that represents - that entity. The mental object is itself abstract in the sense of having no mass. A common example of an abstract representation is the word (string of characters) 'cat', representing a small furry animal. NOTE that a document may have more than one abstract representation; for example, the content could be represented by an abstract formatted text, or by an unformatted text, or by the logical content of the text. NOTE that an AbstractRepresentation (such as an AbstractImage) of a person will contain an abstract representation of that person, but may also contain (and thus be, in this sense) an abstract representation of the clothing or accessories that person is wearing, or of the chair s/he is sitting in, or of the cat next in his/her lap, or of anything else in that image. NOTE also that, just as the representation pointed to by this relation may only have a part that actually represents the subject matter (other parts may represent other subject matters), the subject of the inverse relation 'isanAbstractRepresentationOf' may only have a part that is the representation of the object - for example, an abstract image may have many people in it, and it will be an abstract representation of each of those people, individually. of that relation. Corresponds aproximately to part of verb senses 1 and 2 of 'represent' in WordNet: 1. (39) represent, stand for, correspond - (take the place of or be parallel or equivalent to; "Because of the sound changes in the course of history, an 'h' in Greek stands for an 's' in Latin") 2. (30) typify, symbolize, symbolise, stand for, represent - (express indirectly by an image, form, or model; be a symbol; "What does the Statue of Liberty symbolize?") points from an abstract representation (for example, an AbstractString or AbstractImage) of something to that thing it represents. The abstract string 'the cat' could point to a specific instance of a cat A DateTimeExtendedGroup string would point to a TimeInterval. represent represent represent1v represent2v A LinguisticAssertion is sentence or combination of sentences in some language which expresses in linguistic symbols the content of a logical Assertion (which is an abstract Proposition). The Assertion may be a complex combinations of simple (atomic) assertions. In COSMO every LinguisticAssertion is a topic of some 'Communication'. The reason for this is that the act of creating an assertion in linguistic format entails that the creator had some audience in mind - even if that audience was the creator him/herself. This may leave out mindless rambling speech, but that kind of speech can be represented by a more general linguistic entity, such as 'Statement'. NOTE that the restriction here requires that a LinguisticAssertion be mentioned in some communication (not necessarily part of a communication). It can be mentioned without being part of a Communication if it is referred to or summarized without being presented in full in that communication. isaPartOf is a very general 'part' relation applicable to spatial regions or objects in some space. This relation has no axioms associated with it because it is only an 'umbrella' relation that gathers together other relations having different meaning, so as to provide an anchor point for the ambiguous linguistic notion of 'part' It cannot be transitive, because it subsumes the relation of a member to the group, which is not transitive. But some of its subrelations are transitive. NOTE that to say that something is a part of something else - or inversely, that something has a part - can present issues of implementation and some nuances of interpretation. Regarding implementation, if one asserts that every object ?O of type ?T has a part of type ?P, then for each individual of the ?T type it follows that some part of type ?P must exist. Then the reasoner must be instructed what to do if there is no individual of type ?P that is specifically asserted to be a part of object ?O. One option is to refuse to accept data asserting exstence of object ?O because no part is instantiated. Another option is to automatically instantiate *every* implied part - this can be done in a FOL reasoner by 'Skolemization' - creating a Skolem function that returns the individual. One may want alternative options - to be able to assert a necessary part relation, but *not* to create a Skolem individual if the part itself is not also asserted. In interpretation, it will be necessary to decide whether, for a type ?T that has necessary parts, whether the parts must be in place for an instane of type ?T to exist. If a musical instrument is borken down into its parts in a carrying case, is there a musical instrument in the case, or doe the instrument only exist when it is assembed and functional? These issues are not decided in COSMO, but the 'part' relations can be asserted at the individual or type level, and the proper interpretation of such relations will need to be determined before an implementation can reason accurately with the knowledge in the ontology. NOTE: this and its subproperties are usually instance-level relations, but types are included because they are used in some of the subrelations. To express that some physical object type is *typically* (but not necessarily) a part of another physical object type, use the type-level relation, 'isTypicallyaPhysicalPartOf'. An example would be a limb of an animal, which can be severed, and when thus separated may still be properly called a animal's limb - but not normally connected. isaProperPartOf is a very general 'part' relation applicable to spatial regions or objects in some space. See the parent property 'isaPartOf' for more detail. the inverse of 'isaPartOf', a very general relation applicable to spatial regions, events, or objects in some space. Non-standard usage: 'PhysicalSubstance' is added, though there are no instances in COSMO. This is a device to allow inheritable use of relations on substances. Needs to be carefully translated into FOL 'hasProperPart' is added to clearly distinguish the 'part' relation that could include the whole, useful for some logical and philosophical properties of the 'part' relation. A Communication that involves the transfer of information via a LinguisticExpression. An AssertingEvent is a linguistic Communication in which an Agent creates a communication whose content is predominantly one or more LinguisticAssertions (LinguisticAssertion is an abstract MentalObject, an abstract representation of a Proposition). refersToExternalEntity relates a MentalObject (e.g. a document, goal, fear) or a Communication to some external entity that is explicitly referenced in the MentalObject or Communication. The external entity may be any kind of entity: physical object, topic of study, event past or future. A Goal may, for example, focus on some Event or State that the agent wants to happen. @@@ToDo NOTE that by allowing 'Communication' and InformationTransferEvent, an Event, to be a subject of this relation we are to some extent conflating the Communication act with the subject of the communication. These parts should be distinguished, but because of the limnited expressivity of OWL, at v0.36 this conflation is allowed, to make the ontology easier to work with until a better tool is adopted. mentionsTopic relates an AbstractDocument, abstract Proposition, or InformationTransferEvent to one or more topics discussed in the document, or transferred in the Event. The Topic can be of any type. There may be more than one topic, but there should be at least one. Peripheral or insignificant topics could be, but would not usually be expected to be mentioned using this relation. The domain is 'AbstractDocument' but the range - the topic - could be of any type at all. isMentionedIn relates an entity of any type - class, individual, relation, proposition - to some form of communication or text in which it is mentioned.. hasTopic relates a Document, Text, or InformationTransferEvent to one or more topics discussed in the Message. This is a specialization of 'mentionsTopic', and the Topics related by this relation would be expected to be more in focus than the Topics related by the 'mentionsTopic' relation. There may be more than one topic, but there should be at least one. Peripheral or insignificant topics are less likely to be mentioned using this relation than when using the 'mentionsTopic' relation. The more specific domain here is 'Message' but the range - the topic - could be of any type at all. NOTE that any of the arguments of a RelationInstance (subject, value, other arguments) is a topic of that Assertion. Linguistically, this relation can be phrased as (Doc is about Topic). A Proposition is the abstract propositional content (i.e. the 'meaning') of some sentence, formula, or combination of sentences in any language. A Proposition is the actual meaning of a sentence or sentences in any language, and is independent of the language and of the symbol system used to encode the meaning. A related collection of Propositions is still considered as a Proposition; a prominent example is the body of accepted lore in some FieldOfStudy. Every Proposition has at least one topic related by the 'hasTopic' relation. There may be some temptation to use the subtypes of Proposition (Assertion, Axiom, Rule) as though they are symbolic objects - perhaps AbstractTexts. In casual conversation this will create no problems, and in fact it may not create problems in reasoning with the COSMO either, since both are abstract entities and not PhysicalObjects, and thus not disjoint. But it will be good practice to keep the propositional meanings separate from what are explicit though abstract linguistic representations of the meanings, wherever the distinction is clear. NOTE that this abstract notion of Proposition should not be conflated with an AbstractText that expresses that Proposition in symbols (usually linguistic symbols). An abstract 'Proposition' is related to such a symbolic representation by the relation 'hasAbstractRepresentation'. SUMO: Propositions are Abstract entities that express a complete thought or a set of such thoughts. As an example, the formula '(instance Yojo Cat)' expresses the Proposition that the entity named Yojo is an element of the Class of Cats. Note that propositions are not restricted to the content expressed by individual sentences of a Language. They may encompass the content expressed by theories, books, and even whole libraries. It is important to distinguish Propositions from the ContentBearingObjects that express them. A Proposition is a piece of information, e.g. that the cat is on the mat, but a ContentBearingObject is an Object that represents this information. A Proposition is an abstraction that may have multiple representations: strings, sounds, icons, etc. For example, the Proposition that the cat is on the mat is represented here as a string of graphical characters displayed on a monitor and/or printed on paper, but it can be represented by a sequence of sounds or by some non-latin alphabet or by some cryptographic form. OPENCYC 1: MAY 23, 2002\n A collection of intangible individuals. Each instance of #$Proposition is an abstract propositional thing that has some truth value in some context or world. A proposition is assumed to be representable (at least in principle) by a sentence in some formal or natural language. But it should _not_ be assumed that propositions are themselves intrinsically linguistic items in the way that sentences or formulae are. Indeed, propositions are often viewed as extra-linguistic, intensional entities that (while not sentences themselves) are represented or expressed by meaningful sentences (or, on some versions of this view, by concrete tokens of sentences). On such a view it is possible for distinct sentences (either from the same language or from different languages) to express the very same proposition; e.g. 'Snow is white', 'White is the color of snow', 'Schnee ist weiss'. (in German), and (arguably) '(#$relationAllInstance #$objectHasColor #$SnowMob #$WhiteColor)' (in CycL). Similarly, it is sometimes the case that a single sentence - when used in different contexts - will express distinct propositions; e.g. 'I am hungry.' said by you and said by me. Most formal languages (such as a first-order predicate calculus) and natural languages (such as English) include the resources for composing expressions that represent propositions from component expressions (that might or might not themselves represent other propositions).\n\nDOLCE: The abstract content of a proposition. Abstract content is purely combinatorial: from this viewpoint, any content that can be generated by means of combinatorial rules is assumed to exist in the domain of quantification (reified abstracts). COSMO: An InformationObject is a MentalObject created by an IntelligentAgent that contains Information in some form. The name 'Information-object' is from DOLCE. Comparable to the OpenCyc '#$AbstractInformationalThing'. This subsumes both the symbolic objects that people may create as well as the yet more abstract informational content ('propositional content') which may be viewed as existing independent of the symbols used to encode it. 'Information' has not been well defined yet, so this category does not have clear defining conditions of its own, but subsumes things like AbstractSymbolicObjects, Propositions, and Languages. Every Communication transfers some InformationObject. DOLCE; Information objects are social objects. They are realized by some entity. They are ordered (expressed according to) by some system for information encoding. Consequently, they are dependent from an encoding as well as from a concrete realization.They can express a description (the ontological equivalent of a meaning/conceptualization), can be about any entity, and can be interpreted by an agent.From a communication perspective, an information object can play the role of 'message'. From a semiotic perspective, it plays the role of 'expression'. OPENCYC 1: MAY 23, 2002 A heterogeneous collection of abstract objects that pertain to information. Subsumes not only #$Proposition, but also the collections #$Sentence, #$CharacterString, #$AtomicSymbol-Abstract, #$Microtheory, #$PropositionalInformationThing, and #$ConceptualWork. Note that while all #$AbstractInformationalThings are abstract objects (this collection is disjoint with #$SpatialThing-Localized), most instances of this collection can have multiple concrete 'embodiments';. A single instance of #$Sentence can be written on several peices of paper (see #$instantiationOfAIS); a #$PropositionalInformationThing may be the content of several concrete documents, such as instances of #$BookCopy (see #$containsInfoPropositional-IBT); and several events, such as spoken utterances, may have a certain #$Proposition as their content (see #$containsInformation). Note that some instances of #$AbstractInformationalThing have temporal extent. Examples include all instances of #$Novel-CW and #$Movie-CW. Others specs are disjoint with #$TemporalThing. Examples include all instances of #$Character-Abstract and #$Proposition. Frrom Cyc: OPENCYC 1: MAY 23, 2002\nA specialization of #$AbstractInformationalThing. Each instance of #$Information-Content is an abstract object that can be the content, or meaning, of some token in some language. A pair of tokens of linguistic objects mean the same thing just in case each has the same content as the other. Instance of this collection can be used to represent the content of an instance of #$ConceptualWork. An assertion is a Proposition that is expressed in one logical sentence, which can be a complex sentence formed by an 'and' (a conjunction) or by an 'or' (disjunction'), or any combination of those. It stands by itself as being evaluable as true or false. It cannot have variables in it. Factual assertions in a knowledge base will be instances of this Type. NOTE that this Type represents the abstract *content* of an Assertion, not the symbolic representation. The symbolic representation of an Assertion, in a human language or logical language, is an instance of 'LinguisticAssertion'. For rules in the form if-condition-then-condition, use 'Axiom'. COSMO we add the parent 'AbstractSymbolicObject' to the Cyc concept 'Statement', which makes it clearly a mental object, rather than a physical object. This is interpreted as the abstract symbolic representation of a statement, not any physical representation, and not the propositional (logical) content of the statement. NOTE that a Statement does not necessarily have to have an audience in mind (it could be demented rambling speech), and therefore is not necessarily part of a Communication. The subtype 'LinguisticAssertion', however, must have an audience in mind, and is therefore constrained to be mentioned in (it might also be a part of) some Communication. The propositional content of a Statement is a Proposition. Cyc: A #$Statement is the #$InformationBearingThing created in a #$StatingSomething. An #$Agent must create the #$Statement and it contains propositional information. The illocutionary force of its contents are an #$Inform. bd620a66-9c29-11b1-9dad-c379636f7270 isaComponentElementOf relates some entity to a Group of which it is a member. It is the inverse of 'hasComponentElement'. Since Groups are not defined arbitrarily, and seldom defined automatically, this relation will typically be used only when it makes sense to do so. For example, one may define a Group of 'attendees' of some particular meeting. Then to say that a Person is a member of that Group would allow inference that that Person was in a particular place at a particular time.. A Sign is something that refers to something other than itself; it may be a single entity or a group of entities. It can be an Object, an Event, a Process, or an Attribute. This is a very general category. A Sign may be Physical or Abstract or Mental. 'Sign' is a very general concept, and is used primarily through its specialized subtypes. A physical phenomenon (smoke) can be a sign (of a smoke-producing process), and an AbstractSymbolicObject such as the abstract string 'cat' can be a sign that refers to some animals in the real world. A GenericLabel is either an abstract or a physical artifact that is created with the intention of designating some entity or type of entity. Because it is a thing that points to something other than itself, it is a 'Sign'. This Type corresponds with the English word 'label' which is ambiguous as to abstract or physical labels. A designator (abstract) is an instance of this GenericLabel type, and a physical label that is attached to an individual object (such as the computer I am typing this on) is also an instance of this Type. A GenericLabel may be iconic or symbolic in a non-linguistic way, and therefore does not have to be a word or phrase. This includes senses 1 and 4 of 'label' in WordNet. These senses are distinguished by the subtypes 'Designator' and 'PhysicalLabel' respectively. 1. (3) label - (a brief description given for purposes of identification; 'the label Modern is applied to many different kinds of architecture') 4. (1) label - (an identifying or descriptive marker that is attached to an object) label label1n label4n A Designator is an AbstractSymbolic that is created as a means of reference to some entity other than itself; in addition to being an AbstractSymbolicObject, it plays a Role in designating some other entity, and is therefore also a Role. The most common kinds of Designators are names of people and places, but many other kinds of Designators exist, in particular Identifiers that are numbers or have a numerical component. Every word in a language, natural or artificial, is a Designator of some kind of entity. Designators do not have to be strings or words in a language: symbolic objects such as icons can also be Designators. This corresponds to sense 1 of 'label' in WordNet. 1. (3) label - (a brief description given for purposes of identification; 'the label Modern is applied to many different kinds of architecture') label label1n A List is a MentalObject, i.e. an Object without mass created by an IntelligentAgent, with the distinctive character that it is a linearly ordered arrangement of AbstractSymbolicObjects. A List may be empty, and has its own properties in addition to the properties of the constituent elements, therefore it is not a Group. Note that AbstractStrings are subtype of List. A List is ordered, and it can have the same entity in different positions in the llist. It is not a type of Set. A List has a 'first' and 'rest' component. The 'rest' can be another list, or null. Therefore a list may have one element (or none) Cyc comment: A specialization of #$Tuple. Each instance of #$List is a finite sequence of things with a first and last member-position, with each member-position other than the last having a successor member-position. As with tuples generally, lists allow for repetition of their members, so that the same item can appear at multiple member-positions in the same list. A list can be represented formally as a function from a finite index set of counting numbers, beginning with one, into the domain of all #$Things (but note that #$Lists are _not_ explicitly represented as functions in the Cyc ontology). Unlike an instance of #$Series (q.v.), a list is purely abstract (i.e. both aspatial and atemporal), and the only implied relation between an item and its successor in a list is the successor relation of the list itself. Technically, #$List is more specific than #$Tuple only in that the index set (see #$tupleIndexSet) for a given list must be the counting numbers in their usual order (or some initial segment thereof), whereas the index set for a tuple, generally speaking, might be any set whatsoever. isInList relates some symbol to a List that contains that symbol as an element. SUMO (named 'inList' in SUMO): The analog of 'element' and 'instance' for Lists. (inList ?OBJ ?LIST) means that ?OBJ is in the List ?LIST. For example, (inList Tuesday (ListFn Monday Tuesday Wednesday)) would be true. A AbstractSymbol is a unit mental object which is created to serve as a Symbol, and cannot be broken in parts without destroying much of the meaning of the symbol. Examples are single characters in some language or graphical icons representing ideas or objects. The more interesting Symbols are texts and images. An AbstractCharacter is an AbstractSymbol that is one of the symbols contained in some linguistic alphabet, or any other symbol used in typography or in the control of format during electronic transmission of information. In information processing systems, any sequence of bits having the proper length for use in strings (e.g., seven bits or eight bits or sixteen bits) can count as an AbstractCharacter, the length depending on the computational context. An AbstractCharacter will have a graphical representation (may have multiple different representations in different fonts), and the graphical representations can be distinguished from each other by their shape, but as an AbstractCharacter per se, it can have properties that are independent of the shape, such as the fact that a certain sequence of characters form a certain word. Therefore it is necessary to maintain the distinciton between an AbstracgtCharacgter and its graphical representation. For example, a pdf document may have page images that consist wholly of representations of text - yet it is stored as an image. The distinction has to be made between such images of text and the AbstractText that is represented by that image, and the distinction must be in the way the image is composed - of lines, pixels, or other graphical elements, whereas the text is a linear arrangement of abstract characters, requiring no specification of graphical form for the characters. Specifying the graphical representation of an AbstractCharacter is not essential to distinguish one AbstractCharacter from another, at the abstract level. An AbstractString is a linear array (A List) of basic characters in some character set (not necessarily just an alphabet). It is the abstract representation of the characters, and the base string will not have any formatting, either of font or size or capitalization. Formatting can be represented as attributes of a String. Every defined instance of AbstractString should be represented by a datatype String using the relation 'hasStringRepresentation', unless it is a binary string, or has a number of bits that is not evenly divisible by 8 (in which case, a BinaryString should be used). The name of the AbstractString in the ontology can be very much shorter than the actual String represented; e.g. the string representation of AbstractString 'WarAndPeace' might be the full text of a long book.. Cyc: A specialization of #$PartiallyIntangibleIndividual. Each instance of #$InformationStore is a tangible or intangible, concrete or abstract repository of information. The information stored in an information store is stored there as a consequence of the actions of one or more agents. Wholly intangible instances of #$InformationStore include instances of #$AspatialInformationStore and #$PropositionalInformationThing. Some instances of #$InformationStore - namely, instances of #$InformationBearingObject, such as copies of a newspaper at a newsstand - are only partially intangible. beefff28-9c29-11b1-9dad-c379636f7270 A specialization of #$AspatialInformationStore. Each instance of #$LinguisticObject is an intangible object that is part of some language or other, in a broad sense of part whereby #$LinguisticObject's specializations include such diverse collections as #$Title, #$WordSense, #$SententialConstituent, and #$NonlexicalLinguisticObject. NOTEP: in SUMO a LinguisticExpressi0on is concrete, but in COSMO it is interpreted as Abstract. SUMO: (LinguisticExpression) This is the subclass of ContentBearingObjects which are language-related. Note that this Class encompasses both Language and the the elements of Languages, e.g. Words. bd58d0fb-9c29-11b1-9dad-c379636f7270 An AbstractWordString, consists of one or more AbstractSymbols (which can be phonetic or, as in Chinese, pictophonetic, or any symbols used to compose words) A term of a Language that plays the Role of Designator for some concept. It is an AbstractString, even if it consists of a single ideogram or hieroglyph. It is an AbstractString that, in any given usage, is intended to symbolize a single concept - though in different contexts the same Word may have different meanings, and in puns the meaning may be intended to be ambiguous or fluctuating. It is also an AbstractSymbol. There is some debate over what should linguistically constitute a Word. At a minimum, in the English language, a string of characters that is not broken by spaces can be considered an 'Word', even if it is nonsensical . Tightly linked groups of character strings that have meaning that cannot be constructed from the individual character strings (e.g. idioms that are not sentences) can also be considerd here as 'Word's; if the meaning of a Word with spaces in it is deducible from its components, it should be classified as a 'Phrase'.. A sequential group of Words or other symbols (such as punctuation or logical symbols) in a Language, which function as a unit, i.e. as a unit they express some meaning in the Language. A Phrase is the abstract symbolic content (not the propositional content) of some act that creates language - a speech act, a writing act, or any other act (such as punching a telegraph key) that creates some physical representation of a group of words that together have meaning in a language. It is an AbstractString consisting of substrings that are words and punctuation. To be a Phrase it must have some meaning beyond the content of a single word; a Phrase can consist of a single word ('Yes.'), but in such cases the meaning must be derived from the context surrounding that word, as well as the word itself. Expletives are borderline, but the context and punctuation of an expletive provides meaning not contained in the lexical unit alone. A Phrase represents the abstract linguistic content of some act of producing language. In representing the content of some speech or writing act, a Phrase may be a literal transcription, or may be a summary, or merely a brief description of the gist of some statement. Allowing paraphrases will allow direct attribution of a Phrase to its original source, even though the exact original words are not known and only a summary of the content is available. The distinctions between these properties of a Phrase are not yet (v0.55) represented in COSMO. @ToDo - this type needs properties (enumerated?) to express those distinctions. A Phrase may be parsed in more than one way, and a Word may be defined as more than one lexical unit, having embedded spaces. Therefore a given string may be represented by more than one Phrase. A Phrase can be a single word (e.g. 'Yes.'). Therefore it cannot be an OrderedGroup, which must have more than one element. It is a subtype of both Group and List (a List can have one element in it). The value (object) of the relation 'hasTopic' is not restricted to any set of entities in the ontology. This sense of 'Topic' is more specific for a topic that may be defined with respect to some particular text, such as the list of Topics in a library catalogue. NOTE that the 'subject' of a sentence, viewed as an abstract InformatioObject, might be viewed as a Topic, but the 'SubjectOfaSentence' is actually a subtype of 'AbstractString'. @ToDo: the main subject is not the same as the set of sentences discussing that subject - this needs differentiation. A Topic is a MentalObject which consists of a group of MentalObjects (possibly one MentalObject) including one or more of (1) assertions (not necessarily true) about something - anything at all (2) questions about something; (3) pointers to entities of interest. The label for a topic is the common element (explicit or indirectly implied) around which the assertions, questions, or focus pointers are centered. Any category, any word in any language, anything that can be discussed, is a potential topic. A Topic may also be a genre of writing. The subtypes of this type deal with narrower classes of topics. NOTE that in COSMO a formal Database is classified as a subtype of Topic. Corresponds to noun senses 1 and 2 of 'topic', which are also senses 1 and 2 'subject' in WordNet: 1. (326) subject, topic, theme - (the subject matter of a conversation or discussion; 'he didn't want to discuss that subject'; 'it was a very sensitive topic'; 'his letters were always on the theme of love') 2. (165) topic, subject, issue, matter - (some situation or event that is thought about; 'he kept drifting off the topic'; 'he had been thinking about the subject for several years'; 'it is a matter for the police') topic topic topic1n topic2n subject subject subject1n subject2n BodyOfAcceptedLore is the type that represents all bodies of knowledge in some FieldOfStudy - whether scholarly or less formal - that are generally accepted by the practitioners in that field. A BodyOfAcceptedLore is lne component of a FieldOfStudy - the other component being he methods of that field. A 'Representation' is any Entity - Object or Event, created by or performed by a CognitiveAgent that is intended to represent something other than itself. An Event can be a 'Representation' in several ways; a play or skit may represent some real-world event; a bee's dance may represent the location of food. More common representations are physical objects such as linguistic objects that represent some words or conceptual content. AbstractTexts are also representations of things, and mathematical equations may be representations of Physical phenomena. This is very broad, and most uses of the term 'representation' will be for more specific subtypes. For a Representation that is an Object, use 'RepresentationObject'. Corresponds to noun sense 2 of 'representation' in WordNet. 2. (10) representation - (a creation that is a visual or tangible rendering of someone or something) representation representation representation2n A 'RepresentationObject' is a 'Representation' that is an Object. This includes physical and abstract Objects. Corresponds to part of noun sense 2 of 'representation' in WordNet. 2. (10) representation - (a creation that is a visual or tangible rendering of someone or something) representation representation representation2n A collection of spatially-localized individuals, including various actions and events as well as physical objects. Each instance of #$InformationBearingThing (or IBT ) is an item that contains information (for an agent who knows how to interpret it). Examples: a copy of the novel Moby Dick; a signal buoy; a photograph; an elevator sign in Braille; a map; a US dollar bill; a resume; a musical score; copies of the #$CycProgram. For representations of the propositional content of information bearing things, see #$PropositionalInformationThing; but note that not all IBTs have a propositional content (cf. #$ArtObject). An important specialization of #$InformationBearingThing is #$InformationBearingObject, which comprises all of those IBTs that are also physical objects (i.e. #$PartiallyTangibles). Though often a subtle task in particular contexts, it is important to distinguish the various specializations of #$InformationBearingThing from those of #$AspatialInformationStore (whose instances are the chunks of information instantiated in particular IBTs; see #$instantiationOfAIT) and from those of #$ConceptualWork (whose instances are the conceptual or artistic creations that are instantiated in particular IBTs; see #$instantiationOfWork). For instance, #$TextString is a specialization of #$AspatialInformationStore, #$TextualMaterial is a specialization of #$InformationBearingThing, and #$TextualPCW is a specialization of #$ConceptualWork; to conflate any of these with another would be to make a category error . Also note that events in which information is transferred (see #$InformationTransferEvent) are not considered instances of #$InformationBearingThing. Rather, such transfer events have as one of their participants (see #$actors) some instance of #$InformationBearingThing; though in cases where IBTs are themselves events this will require distinguishing very finely between the event that encodes the information and the event that is the information transfer. See also the sense-modality-based specializations, #$SoundInformationBearingThing and #$VisualInformationBearingThing. be436e7e-9c29-11b1-9dad-c379636f7270 A AbstractSymbolicObject is a mental object which is created to serve as a Symbol, i.e. to represent something other than itself. This is not a physical object, but more abstract, such as the letter 'a', which may have representations in billions of different physical objects, but retains its identity as the unique (Roman alphabet) letter 'a'. Every SymbolicObject is represented in at least one PhysicalObject, even if only the brain of the person who created it. The more interesting SymbolicObjects are texts and documents. This Type is approximately equal to,and merged with, the Cyc 'AbstractInformationStructure' From Cyc: OPENCYC 1: MAY 23, 2002\ A subcollection of #$AbstractInformationalThing whose instances involve symbols standing in certain relations to one another. Important specializations include #$CharacterString and #$Sentence. #$AbstractInformationStructure also includes abstract diagrams, graphs, and bit strings. The collection can be more precisely defined as follows: Each #$AbstractInformationStructure is such that each of its physical instantiations (see #$instantiationOfAIS) consists of instantiations of instances of #$AtomicSymbol-Abstract, arranged in a certain way. For example, the abstract sentence 'The pig flies' is an #$AbstractInformationStructure. Each written instantiation of it consists of an instantiation of the words (symbols) 'The', 'pig' and 'flies', written in that order. (If the #$AbstractInformationStructure 'The pig flies' were spoken, the same words would appear in the same order, i.e. 'The' first, etc., but the sequence would be determined by the arrangement of the words in time, rather than space.) Likewise with abstract diagrams, graphs, etc. Each of these is such that their physical instantiations consist of arrangements of instantiations of instances of #$AtomicSymbol-Abstract. A hard copy of a wiring diagram consists of a group of concrete symbols representing various circuit components, in which these symbols are spatially arranged in a certain in way. The arrangement of the concrete symbols in an instantiation of an #$AbstractInformationStructure is not always a simple matter of arrangement in space or time. The sequence of symbols '0010010111011001' can be instantiated in written, spoken, or electronic forms. In the last case, the order of the symbols is determined by conventions concerning the electronic medium in which it is stored, rather than by any common criterion for precedence or subsequence in space or time. An AbstractText is the abstract representation of some linguistic expressions. An AbstractText need not have some representation in a PhysicalObject, it can have a physical representation in some spoken words or otherwise briefly communicated linguistic expressions that are not recorded; this is a string of linguistic symbols that represent the yet more abstract propositional content of some linguistic phrase. A written text may have formatting, such as columns and rows, beyond simple linear text. Any AbstractText has parts which are also AbstractText - an AbstractText need not be a complete document, but can be part of a document. ConceptualWork[Cyc] In COSMO a 'ConceptualWork' (a MentalObject) is classified as an AbstractSymbolicObject, since such works are always created in symbols, though the symbols may have information content - the 'meaning'. COSMO differs somewhat from the Cyc description in that we consider Codes to be included, but have a different usage of the term 'Code'. Cyc: OPENCYC 1: MAY 23, 2002 The collection of abstract works which are the deliberate creations of one or more individuals working in concert, have instantiations [#$instantiationOfCW] which are #$InformationBearingThings, and associated #$AbstractInformationStructures. This is a specialization of #$DevisedPracticeOrWork [q.v.]. For works with propositional content see the more specific collection, #$PropositionalConceptualWork (PCW). Positive examples include: #$MobyDickNovel (as opposed to any instances of #$BookCopy such that (#$instantiationOfCW #$MobyDickNovel BOOK_COPY)), Beethoven's 9th Symphony (as opposed to any performance of this symphony or any copy of its score). Negative examples include: games (performances are not IBTs), awards (they do not have associated #$AbstractInformationStructures), paintings (not abstract), customs (not deliberate creations), natural languages (not a deliberate creation), and codes (their uses, not instantiations, are IBTs). description (from DOLCE-D_S) From DOLCE (Descriptions and Specifications): A description is a social object which represents a conceptualization (e.g. a mental object or state), hence it is generically dependent on some agent and communicable. Descriptions define or use concepts or figures, are expressed by an information object and can be satisfied by situations. The typology of descriptions is still preliminary. In COSMO, a Description is somewhat more specific: it is two or more assertions that all include the same entity as one of the arguments, and it is a MentalObject created to enable an Intelli"gentAgent to understand the nature of that entity. Specification[COSMO-suggested] COSMO: A Specification is a broad category of intentionally created abstract informational artifacts whose purpose is to describe the desired structure or attributes of a thing or a series of steps that may be taken to construct a thing or to accomplish a goal or purpose. It is a mental object having ordered components,the order of which is designed to accomplish a purpose. The ordering may be spatial, temporal, or conceptual. The steps may be abstract things like computational events or game rules, or physical things such as in industrial processes. The format of a formatted document is a specification,i.e. it specifies how a document of that type is to be constructed. Likewise a grammar or computer program is a specification. A specification does not necessarily require that the steps be in sequence. If they must be in sequence, it is a procedure. This differs somewhat from the Cyc 'Specification': Cyc comment: A specialization of #$ConceptualWork. Each instance of #$Specification is an abstract work that constitutes a description of the properties of a #$Situation or a #$SomethingExisting, and sometimes even entire collections of such things. Things are made, bought, and searched for according to specifications, which can be instantiated as printed instructions or as diagrams. This collection is modally neutral with regard to the descriptive character of its instances. Thus, it includes descriptions of how things are, were, should be, must be, etc. wasCreatedBy relates an Artifact (concrete or abstract) to the Agent or Agents who created it. Knowing the identity of one creator (e.g. of an artifact) does not guarantee that one knows the identity of all creators. @ToDo: NOTE: as of v0.52, ArtificialSubstance is included in the domain as a subtype of 'Artifact-generic', but this should be restricted to objects, since it is quantities of ArtificialSubstance that are actually created by agents, not the abstract substance. Change the range to some subtype of 'Artifact-generic'?? NOTE that the range includes an AbstractString, which is semantically nonsense, but is included as a pragmatic tactic to allow subrelations of this relation to be used in mapping database records to their creators. The creators will sometimes be represented in the database only as a string, and in such cases an implementing system, at its option, can avoid creating a new Person object (instead creating an AbstractString object), when the system cannot identify the 'creator' of the record. This tactic may change as the ontology is further developed, and experience with mapping databases increases.. An Artifact-Generic was anything created by an Agent. More useful categories will be the more specific Types. Original COSMO Indented List name: Artifact-Generic_includes_conceptual_works__laws__information_objects_ OPENCYC 1: MAY 23, 2002 A collection of things created by #$Agents. These creations may be either tangible (like a hammer, a bowl, or a bridge) or intangible (like a set of laws, a #$KnowledgeBase, or Beethoven's Ninth Symphony). Thus, the collection of #$Artifact-Generics is partitioned into #$Artifact and #$Artifact-Intangible (q.v.). For substypes labeled 'product' see also 'Product', 'ManufacturedGoods' Corresponds approximately to noun 1 of 'artifact' and part of noun sense 2 of 'work'(but only applies to objects, not Actions) in WordNet, being interpreted as both physical and abstract work products: WN 'artifact': 1. (1) artifact, artefact - (a man-made object taken as a whole) WN 'product' 2. (138) product, production - (an artifact that has been created by someone or some process; 'they improve their product every year'; 'they export most of their agricultural production') WN noun 'work': 2. (359) work, piece of work - (a product produced or accomplished through the effort or activity or agency of a person or thing; 'it is not regarded as one of his more memorable works'; 'the symphony was hailed as an ingenious work'; 'he was indebted to the pioneering work of John Dewey'; 'the work of an active imagination'; 'erosion is the work of wind or water over time') product product product2n artifact artifact1n artefact artefact1n work work work2n An IntentionalAgent is an Agent that (typically) has the capacity to form a plan of action. Therefore an IntentionalAgent is an Agent to whom some purpose may be assigned - even if only the purpose of survival. The level of intentionality required to belong to this category is not as high as that required to belong to the more specific category of 'IntelligentAgent'. Therefore computer programs that do not approach human-level linguistic capacity, but have some level of intentionality (in this ontology 'SoftwareAgents') will fit in this category. But to belong to this category a computer program must have a high degree of autonomy - it must be able to reason about situations and form plans that were not directly preprogrammed. As of 2008 it is uncertain whether any such programs exist. Other Labels: Agent-Generic[Cyc] Agent[DOLCE] SentientAgent[SUMO] @ToDo: NOTE that an IntentionalAgent does not necessarily have to be a PhysicalObject (as of v0.52) because the subtype SoftwareAgent is not a PhysicalObject, and spirits that in religion or folklore have agentive powers are also not PhysicalObjects.. IntentionalAgent is disjoint from Artifact-NonAgentive. This category will also include some non-human animals that can be said to be able to form some plans, however primitive. As of COSMO version 0.3, we include only mammals under this class. If it is shown that other animals can form primitive plans, at that time they may also be added as subtypes of this category. OPENCYC 1: MAY 23, 2002 #$Agent-Generic is the collection of all agents, or things (like #$Animals, #$Robots, #$DivineBeings, etc.) that have desires and intentions and the presumed ability to act on them. An instance of this collection may be an instance of #$AgentiveArtifact or #$Agent (but not both). In SUMO, 'CognitiveAgent' appears to be the approximate equivalent. SUMO: An Agent that has rights but may or may not have responsibilities and the ability to reason. If the latter are present, then the Agent is also an instance of CognitiveAgent. Domesticated animals are an example of SentientAgents that are not also CognitiveAgents. DOLCE: agent: A catch-all class used to join agentive objects (either physical or social). Agents are dispositionally so, in the sense that they internally represent descriptions, and in particular plans, goals and possible actions, but they do not necessarily act. In everyday language, agent is used in this sense, but also to tell that something has acted in a certain way, or to say that something has an initiator or leading role in some action. In DLP, the performs relation encodes these notions. The SUMO approximate equivalent of Cyc 'IntentionalAgent'. An IntelligentAgent is an agent (Person, Organization, GroupOfPeople, or possibly spirits or an intelligent machine) that can form plans, use knowledge in plans, and can communicate in language. Some activities, such as buying things, can only be performed by an IntelligentAgent. Among the natural animals, only people qualify for this status - in this respect, this category differs from the definition given by Cyc (below). Groups of people, or organizations whose acts are in fact carried out by people (or machines directed by people), can be considered as IntelligentAgents - by the convention that the acts carried out by people who are authorized to act in the name of an organization are acts of the organization. (see Organization). To some degree, existing or future computers may also have such a capacity, and would fit into this category, even if the range of linguistic inputs that would generate an appropriate response may be much more limited than for an adult human;'intelligence' is therefore a quantitative attribute, which has a range of values. NOTE that this category needs to be carefully axiomatized so that the system will recognize blocking conditions that may prevent the understanding of language in specific circumstances: for example, an individual person will only understand one or a small number of languages; a person will understand language only when conscious and awake, and able to perceive the input. A human baby will not understand language at birth, and will develop that capacity gradually; nevertheless a human baby is an instance of this Type. Implementing the use of such blocking conditions will be complex, but including any agent type that can normally understand some human or near-human language appears to be preferable to creating a subtype of human that can qualify absolutely as understanding language, without conditions. NOTE that a Person is an IntelligentAgent, and therefore a DeadPerson is also an IntelligentAgent. In most circumstances, one would not consider a DeadPerson as being able to understand language, unless one is within a belief system where spirits survive bodily death. Death is one of the potential blocking conditions for language understanding that will need to be interpreted in context. NOTE that as of 2008, there were no machines that acted on their own behalf, and any action taken by a machine is to be attributed to the agency of the person, organizaton, or GroupOfpeople who directed that machine to act. This is similar to the Cyc #$IntelligentAgent, but COSMO 'IntelligentAgent' excludes non-human animals: Cyc: A specialization of #$Agent-Generic (q.v.) whose instances are all agents capable of knowing and acting, and of employing their knowledge in their actions. An intelligent agent #$knowsAbout certain things, and having #$beliefs (and possibly #$goals) concerning those things may influence its actions. As with agents generally, an intelligent agent might be a single individual or might consist of a group of individual agents (see #$MultiIndividualAgent). Thus persons are intelligent agents, and so are certain social beings like business and government organizations. Some non-human instances of #$Vertebrate that seem to be sentient and somewhat intelligent, such as (arguably) dogs and horses, can also be considered intelligent agents. A Methodology is not a specific Procedure, but a set of procedures which may be applied individually or collectively to accomplish some general category of tasks. A specific example is the 'Scientific Method' in which hypotheses are created and verified or disproved by experiment or observation. A FieldOfStudy is a composite object, including both the accepted knowledge - the lore - of some recognized field of knowledge, and also the theories and the methodology that the practitioners in the field use to discover or create new information in that field. The paradigms discussed by Thomas Kuhn in his book 'The Structure of Scientific Reolutions' is included in the 'methodology' component, and also contains the models an exemplar experiments and results. The representations in SUMO and Cyc do not correspond exactly to this representation. Termed 'FieldOfStudy' in both Cyc and SUMO. NOTE: what might be considered as instances of this Type, e.g. Chemistry, Physics, are represented as subtypes. This is to allow specializations of the broad fields (e.g. Biochemistry, NuclearPhysics) to be properly represented as subtypes, and those especializations might in turn have specializations. Fields of study are not considered as conceptual individuals in COSMO. This differs from the Cyc documentation. Note also that because there are no instances, the restrictions below will never apply to any specific thing - rather, they are placeholders for axioms that can be used in inferencing on classes of things, when this ontology is ported to FOL, and are also intended to clarify the intended meaning. OPENCYC 1: MAY 23, 2002: A specialization of #$AbstractInformationalThing. Each instance of #$FieldOfStudy is a particular area of study, with its own distinctive set of theories, hypotheses, and problems. Instances of #$FieldOfStudy are typically the subject of teaching and/or research within instances of #$AcademicDepartment (q.v.), although one #$AcademicDepartment may cover several instances of #$FieldOfStudy. Instances of #$FieldOfStudy include #$ArtHistory, #$Physics, and #$ArtificialIntelligence. SUMO: An academic or applied discipline with recognized experts and with a core of accepted theory or practice. Note that FieldOfStudy is a subclass of Proposition, because a FieldOfStudy is understood to be a body of abstract, informational content, with varying degrees of certainty attached to each element of this content. Corresponds to noun sense 4 of 'field' and sense 3 of 'subject' and sense 1 of 'discipline' in WordNet: 4. (18) discipline, subject, subject area, subject field, field, field of study, study, bailiwick, branch of knowledge - (a branch of knowledge; 'in what discipline is his doctorate?'; 'teachers should be well trained in their subject'; 'anthropology is the study of human beings') field field field4n subject subject subject3n discipline discipline1n field_of_study field_of_study1n SUMO; Any FieldOfStudy which tests theories on the basis of careful observations and/or experiments and which has a cumulative body of results. Cyc: A specialization of #$FieldOfStudy. Each instance of #$ScientificFieldOfStudy is a specialized body of knowledge, theory, hypotheses, observations, and problems, which together constitute the informational content of a systematic endeavor to explain (some part of) the natural world by rational (and frequently, quantifiable) methods, including, but not limited to, induction, falsifiable hypotheses tested by repeatable physical experiments, and deductive proof. Instances of #$ScientificFieldOfStudy include the traditional hard sciences (e.g., #$Physics, #$Chemistry), the life sciences (e.g., #$Biology, #$Genetics, #$Toxicology), and #$Mathematics. Corresponds to noun sense 1 of 'science' in WordNet: 1. (9) science, scientific discipline - (a particular branch of scientific knowledge; 'the science of genetics') bd58b7fc-9c29-11b1-9dad-c379636f7270 science science science1n The Cyc term for 'Science'. the science concerned with studying the structure of matter and the manner in which energy is transformed, or affects matter. Corresponds to noun sense 1 of 'physics' in WordNet: 1. (10) physics, physical science, natural philosophy - (the science of matter and energy and their interactions) physics physics1n An AbstractObject is an entity which does not exist in space or time. This is more stringent than merely not having mass, the criterion for belonging to 'AbstractEntity'. This category is mostly for mathematical concepts. Under 'AbstractEntity' we also have 'MentalObjects', which do exist in space and time. COSMO Note: the notion of 'Abstract' has historically been somewhat vague. It is often defined by saying that it represents things 'not located in space or time' - but then subclasses are defined which are clearly mental constructs with a defined creation time (e.g. musical compositions) - which means that they must indeed be located in time and space. In this ontology we distinguish generically 'Abstract' things from 'MentalObjects' - the latter are things created by IntelligentAgents (people) that have no mass, and therefore would traditionally be categorized as 'Abstract'. 'AbstractObject' here is used mostly to categorize mathematical things such as numbers, which arguably do not depend on intelligent entities for their existence. But 'AbstractEntities' and 'MentalObjects' are not considered disjoint here, so there is room for people to argue whether mathematical concepts are created or merely discovered by mathematicians - we take no position on that issue. See the note under 'AbstractEntity' to see how 'Abstract' is used in this ontology. The current (20061027) arrangement here is provisional, keeping some of the terminology from Cyc and SUMO for alignment - but it may be changed slightly in the future in a way that will not affect inferencing. Intangible_Cyc__Abstract_SUMO__abstract_object_ISO15926 ISO15926 An Abstract-object is a thing that does not exist in space-time. (COSMO note - this is not the interpretation in COSMO - MentalObjects are abstract, but they do 'exist' in our ordinary space and time.) SUMO: Abstract : Properties or qualities as distinguished from any particular embodiment of the properties/qualities in a physical medium. Instances of Abstract can be said to exist in the same sense as mathematical objects such as sets and relations, but they cannot exist at a particular place and time without some physical encoding or embodiment. #$Intangible: OPENCYC 1: MAY 23, 2002 The collection of things that are not physical - are not made of, or encoded in, matter. Every #$Collection is an #$Intangible (even if its instances are tangible), and so are some #$Individuals. Caution: do not confuse 'tangibility' with 'perceivability' - humans can perceive light even though it's intangible--at least in a sense. For more on this issue, see the relevant #$cyclistNotes. Quantities can be numbers (integer, real, imaginary) or number ranges or approximate numbers, or distributions, or restricted ranges (greater than or less than), or PhysicalQuantities, which are measures. Numbers may have different qualitative dimensions (scales), and quantitative comparisons will generally only be meaningful when two numbers are expressed on the same scale. An attribute of Actions that specifies that an Agent performed the Action with the purpose of achieving the result expected or accomplished. This contrasts with actions that are accidental, unconscious, or automatic (such as Consciousness, which is an Action in COSMO). There is only one relevant sense in Random Hose Webster; 1. done with intention or on purpose; intended: an intentional insult. The 3 WordNet senses of 'intentional' are difficult to tell apart, except that part of sense 2 in which 'designed' is used appears to have a different meaning. This type includes all 3 WordNet senses, but does not include the sense of 'designed' that is represented by the examples. 'willful' is sometimes used in a similar sense, as indicated by the quote for sense 1 of 'willful' in RHW: 1. deliberate, voluntary, or intentional: The coroner ruled the death willful murder. . . . however, the example for 'willful' in WN sense 3 of 'intentional' is a different sense, corresponding to sense 2 of 'willful' in RHW and sense 2 in WN: 2. unreasonably stubborn or headstrong; self-willed. Therefore WN sense 3 of 'intentional' is a mixed sense In COSMO 'Willful' represents an attribute that includes not only intention, but defiance (knowing that someone else objects), so is a subtype. This corresponds to all 3 adjective senses of 'intentional', adjective sense 1 of 'deliberate', adjective sense 2 of 'knowing' and in WordNet: 1. (2) deliberate, intentional, knowing - (by conscious design or purpose; 'intentional damage'; 'a knowing attempt to defraud'; 'a willful waste of time') 2. designed, intentional - (done or made or performed with purpose and intent; 'style...is more than the deliberate and designed creation'- Havelock Ellis; 'games designed for all ages'; 'well-designed houses') 3. intentional, willful, wilful - (done by design; 'the insult was intentional'; 'willful disobedience') Corresponds to adjective sense 1 of 'conscious' and sense 2 of 'witting' in WordNet, and partly to sense 2 which is a mixed sense; 1. (7) conscious, witting - (intentionally conceived; 'a conscious effort to speak more slowly'; 'a conscious policy') conscious intentional intentional1adj conscious conscious1adj witting witting2adj willful willful1adj wilful wilful1adj deliberate deliberate1adj knowing knowing2adj This is the collection of all activities which are performed in a state of consciousness, that is, the animal performing the action is not sleeping, in a coma, or otherwise unconscious. a8eb2b06-d712-41d6-8443-9a24c2022ade A specialization of both #$Action and #$AtLeastPartiallyMentalEvent. Each instance of #$PurposefulAction is an action consciously, volitionally, and purposefully done by (see #$performedBy) at least one actor. In SUMO, equivalent to 'IntentionalProcess'. SUMO: A Process (Event) that has a specific purpose for the 'IntentionalAgent' who performs it. bd589e3f-9c29-11b1-9dad-c379636f7270 COSMO note: use 'hasStartingPlace' and 'hasEndingPlace' or some subproperty to specify the 'places' (abstract or concrete) from which the thing being transferred begins and ends during the GeneralizedTransfer. In the case when an intangible thing is 'transferred', as when an academic degree is awarded, the agent from which the intangible comes may not have lost anything in the process; this abstract type should not be viewed as an object moving from one place to another and no longer being in the original place, though subtypes for transfer of PhysicalObjects do have that property. The relation 'hadTransferredItem' can be used to specify what is transferred, physical or abstract. In addition to starting and ending places, there may be an intermediary path that is explicit in assertions of GeneralizedTransfer - for movement events, 'by way of' is one linguistic marker for such an intermediary stage. In the case of some giving events, the intermadiary may be implied less directly,such as in the sentence 'Jack bought the book for Mary on Amazon.com' in which origina is Amazon.com, the intermediary is Jack, and the final destination is Mary. Likewise, 'Jack sent the book to Mary by parcel post' specifies the three participants in a transfer. 'Jack drove from Philly to New York on I-95' specifies a path, I-95, which is elongated and not a compact object. Cyc: A specialization of #$Event. Each instance of #$GeneralizedTransfer is an event in which something (tangible or intangible) is transferred from one 'place' to another. #$GeneralizedTransfer includes changes in physical location, in ownership or possession, transfer of information, and propagation of wave phenomena through space. See also the related predicate #$transferredThing, and the specializations of this collection. bd588eb6-9c29-11b1-9dad-c379636f7270 go go go1v COSMO note: a TransferIn may be a transfer of something intangible that is not actually possessed in the same way by an agent doing the transfer - awarding a degree, honor, or praise is a 'TransferIn' though nothing is lost by the agent doing the awarding. In a TransferIn, an agent or locatkion may 'have; something it didn't have, but that does not require a loss for any other agent or location. This is pretty abstract, and is useful mostly as a type that can be the domain of some special relations. Cyc: A collection of events. Each instance of #$TransferIn is a #$GeneralizedTransfer (q.v.) for which there is a well-defined thing that it is a transfer to (see #$to-Generic), but not necessarily a well-defined thing that it is a transfer from (see #$from-Generic). Subcollections of #$TransferIn include #$Collecting, #$GainingUserRights, and #$AccessingAnIBT. At the end of a #$TransferIn, the thing transferred (see #$transferredThing) is in some sense located at the #$to-Generic. Non- examples of #$TransferIn include instances of #$AbandoningSomething (when there is no prospective owner) and of #$IBTGeneration (when the information may go to various unspecified locations). bd631969-9c29-11b1-9dad-c379636f7270 COSMO note: GeneralizedTransfer in COSMO is required to have an origin and destination, so this Cyc type has been reinterpreted as a subtype of Event, so that no ending place is required. Cyc: A specialization of #$GeneralizedTransfer. #$TransferOut includes all instances of #$GeneralizedTransfer in which some object plays the role of #$from-Generic, but in which there may or may not be any object playing the role of #$to-Generic. At the start of a #$TransferOut, the object playing the role of #$transferredThing is 'located' at the object playing the role of #$from-Generic. The collection #$TransferOut includes, among other things, all instances of the collections #$Emission, #$LosingUserRights, and #$DistributionEvent. Negative examples of #$TransferOut include some instances of #$AppropriatingSomething (when there is no previous owner) and some instances of #$Hearing (when the sounds may come from various unspecified locations). bdc16356-9c29-11b1-9dad-c379636f7270 'hasEndingPlace' relates a GeneralizedTransfer to the 'Place' to which the transferred thing is transferred. The companion relation 'hasStartingPlace' specifies the 'place' from which it originates. Since 'GeneralizedTransfer' is a broad type including transfers of abstract thing (e.g. information) as well as PhysicalObjects, the 'place' of origin or destination can be abstract as well. The 'EndingPlace' can be a Person, as in the Action of 'VisitingSomeone'. For a 'Travel-TripEvent', the 'GeneralizedTransfer' can have more than one 'ending place'. @ToDo: this relation needs to be specialized to distinguish one destination from multiple destinations, and people from places. More specialized relations can be more specific as to the kind of 'place' for origin and destination of a GeneralizedTransfer. NOTE that even an OrientationMeasure can be an absgtract 'place' from which or to which something is transferred. This corresponds to Cyc relation 'to-Generic': Cyc: (#$to-Generic GEN-TRANS THING) means that the #$GeneralizedTransfer GEN-TRANS has a destination or endpoint THING. Because #$GeneralizedTransfer covers many kinds of transfer, both physical and abstract, this endpoint can be of many types. In a #$Translocation it is a #$PartiallyTangible location (see #$toLocation), while in #$TransferringPossession it is an #$Agent (see #$toPossessor). #$to-Generic encompasses all kinds of endpoints; as a rule, it is better to use more the specific predicates when possible. This relation can be used to express the concept 'into' when something (concrete or abstract) is placed into something else. bfd50815-9c29-11b1-9dad-c379636f7270 into 'hasStartingPlace' relates a GeneralizedTransfer to the 'Place' from which the transferred thing originates. The companion relation 'hasEndingPlace' specifies the 'place' to which it is transferred. Since 'GeneralizedTransfer' is a broad type including transfers of abstract thing (e.g. information) as well as PhysicalObjects, the 'place' of origin or destination can be abstract as well. More specialized relations can be more specific as to the kind of 'place' for origin and destination of a GeneralizedTransfer. NOTE that even an OrientationMeasure can be an absgtract 'place' from which or to which something is transferred. This corresponds to Cyc relation 'from-Generic': Cyc: (#$from-Generic GEN-TRANS THING) means that the #$GeneralizedTransfer GEN-TRANS has an origin or starting point THING. Because #$GeneralizedTransfer covers many kinds of transfer, both physical and abstract, this starting point can be of many types. In a #$Translocation it is a #$PartiallyTangible location (see #$fromLocation), while in #$TransferringPossession it is an #$Agent (see #$fromPossessor). #$from-Generic encompasses all kinds of starting points; as a rule, it is better to use more the specific predicates when possible. c00cab61-9c29-11b1-9dad-c379636f7270 hadTransferredItem relates a GeneralizedTransfer event to the thing transferred during the Event. Note that more than one thing may be transferred in an Event, and in particular each Transaction has at least two things transferred. This is a Case role for the GeneralizedTransfer event, which includes specializations such as Communication or property transfer.CashBuying Things that are tranferred may be abstract or tangible, so the range is not restricted. 'wasTransferredInEvent' is the inverse of 'hadTransferredItem', This relation relates something (no restriction on the domain) to a GeneralizedTransfer event. A specialization of #$GeneralizedTransfer. Each instance of #$InformationTransferEvent is an event in which information is transferred from a source (#$informationOrigin) to one or more destinations (#$informationDestination), where the source and the various destinations are either intelligent agents or #$InformationBearingThings (IBTs). Examples include reading a book (transfer of information from the book to the reader), saying something to someone (transfer of information from the speaker to the listener), machine translation (transfer of information from an encoded IBT in the source language to an encoded IBT in the target language), OCR scanning (transfer of information from a visual information source to another IBT in a different format), carving initials in a tree (transfer of information from an agent to an IBT), and making a speech (transfer of information from an agent to other agents). See also the specialization #$InformationTransferPhysicalEvent. NOTE that information can be transferred from a person's mind to a piece of paper, so the destination of the transfer does not have to be an IntelligentAgent, and an InformationTransfer does not have to be a 'Communication'. COSMO note; why is information transfer not always a PhysicalEvent in Cyc see 'InformationTransferPhysicalEvent'? Perhaps so that spirit communication can be included? In SUMO the appproximate equivalent of 'ContentBearingProcess'. SUMO: ('ContentBearingProcess') Any Process, for example ManualHumanLanguage, which may contain a Proposition. bd589f07-9c29-11b1-9dad-c379636f7270 'hadInformationTransferred' relates an InformationTransferEvent to one or more InformationObjects transferred in the Action. NOTE that for the case of a DisplayDevice, the information displayed is not necessarily received by any particular Person, so that kind of 'transfer' relation is represented by the special relation 'hasInformationDisplayed'. When a DisplayDevice is observed, the Event can be an 'InformationTransferEvent' and in such a case the fact that the informatkon transferred is the same as the information displayed will have to be handled by a rule in the FOL version @ToDo. . The collection of #$Intangible things that are intrinsically mathematical (see #$MathematicalThing) or computational (see #$ComputationalObject). Instances of #$MathematicalOrComputationalThing are abstract in the very strong sense of being nonspatial, atemporal, and massless. Examples include numbers, sets, collections, relations, algorithms, and abstract character strings. bd58e31f-9c29-11b1-9dad-c379636f7270 A specialization of #$MathematicalOrComputationalThing. Each instance of #$MathematicalThing is an atemporal, nonspatial, purely mathematical thing. #$MathematicalThing is partitioned into two main specializations, #$MathematicalObject and #$SetOrCollection (qq.v). bd58e5b6-9c29-11b1-9dad-c379636f7270 A specialization of both #$MathematicalThing and #$IntangibleIndividual. Each instance of #$MathematicalObject is a purely abstract mathematical thing which is also an individual (see #$Individual). Specializations of #$MathematicalObject include #$Quantifier, #$RealNumber, #$Triangle, and #$TruthValue. Note that instances of #$SetOrCollection are not instances of #$MathematicalObject, since they are not instances of #$Individual. bf461f37-9c29-11b1-9dad-c379636f7270 containsSymbolicObject specifies that some AbstractSymbolicObject (such as a text) contains some other AbstractSymbolicObject. This relation may be used to specify that some type of text must always contain an instance of another type of text. NOTE that this is not a subproperty of 'contains' because the definition of 'contains' requires that the contained thing is not a part of the containing thing. For this symbolic containment, we allow the contained thing to be a part of the containing thing An AbstractDocument is an abstract symbolic object that has at least one part that is an AbstractText. Note that this 'document' is abstract, not a physical document. Each AbstraactDocument has at least one physical object that represents that document. Note that a one-way message can be considered as a complete document, but is more specific in having a sender and a list of intended recipients. wasCreatedDuring relates a PhysicalObject or an Artifact to the time interval (or Event) during which it was created. This is the companion to 'wasDestroyedDuring', specifying the ending time (if the entity is no longer in existence). For cases where the creation or destruction times are vague, broad time intervals can be used. NOTE that this can be used to represent the fact that something was craeted within the time interval in which some Event occurred, even if one does not know the actual time interval in which the Event happened. If in fact the Object was created as a result of an Event, the subproperty 'wasCreatedByEvent' should be used. wasCreatedByEvent relates an instance of PhysicalObject or Artifact to the specific Event as a result of which it was created. NOTE that this is a subproperty of 'wasCreatedDuring' - if an object was created as a result of an Event, it was created during the time interval in which the Event took place. It may be possible to use this OWL relation inappropriately by error (if the Event is represented as one time interval, and the actual time of creation was sometime later). A rule to test for such discrepancies should be included in the CL version of COSMO. the inverse of 'wasCreatedByEvent'. This relation points from an Event to an Object (physical or abstract) which was created as a result of that Event. This relation is more specific than 'produced', in that the thing created went from nonexisting to existing as a result of the event which is the subject in the assertion using this relation. This relation is related to the type 'Creation' and its subtypes, by directly specifying the relation between participants in a Creatkion action. Includes verb senses 1 and 2 of 'produce' and senses 2,5, and 6 of 'create' in WordNet: 1. (76) produce, bring forth - (bring forth or yield; 'The tree would not produce fruit') 2. (42) produce, make, create - (create or manufacture a man-made product; 'We produce more scars than we can sell'; 'The company has been making toys for two centuries') WN 'create': 2. (40) create - (bring into existence; 'The company was created 25 years ago'; 'He created a new movement in painting') 5. create, make - (create by artistic means; 'create a poem'; 'Schoenberg created twelve-tone music'; 'Picasso created Cubism'; 'Auden made verses') 6. produce, make, create - (create or manufacture a man-made product; 'We produce more cars than we can sell'; 'The company has been making toys for two centuries') produce produce produce1v produce2v create create create2v create5v create6v A SolidObject is a PhysicalObject that retains its shape with less than 30% distortion in any one dimension when placed on a surface in air *or in water* in Earth's gravitational field. This means that reasonably solid but compressible gels qualify as SolidObjects. For objects that are less distortable than gels, use 'RigidObject'. NOTE that a SolidObject does not have to be rigid. All Organisms are SolidObjects, even jellyfish. To be solid, and object may distort, but cannot flow as a liquid or disperse as a gas. COSMO note: PhysicalPartOfObject is here interpreted as a Role, which means that anything classified under this category must have as part of its definition that it is necessarily a part of some larger physical object, in the sense specified in the ontology.. Cyc: The collection of things that are best thought of as parts of other things, and about which we might have something useful to say. Think of table legs, sleeves of garments, etc. This is just to make it easier to search through all this part stuff when someone needs to do so. None of us (#$Guha, Karen, Nick ...) are very happy with this collection ... Corresponds to noun sense of 'part' in WordNet, and sense 3 and part of sense 1 of 'Piece' (unclear from the eaxmaple how broad sense 1 of 'piece' is):: WN 'piece': 1. (25) piece -- (a separate part of a whole; "an important piece of the evidence") 3. (8) part, piece -- (a portion of a natural object; "they analyzed the river into three parts"; "he needed a piece of granite") bd589de9-9c29-11b1-9dad-c379636f7270 Each class of a ColorAttribute forms a region with more specific classes of ColorAttribute forming subregions. The actual instances are the indicidual unique colors of specific objects, but those instances are not typically reified (they are similar to 'tropes' in some treatments), rather the subtype of 'ColorAttribute' representing the class of all similar colors is used as the value for 'hasColor'. Each color has its own values of hue, saturation, and brightness (intensity). At this point (r863), the manner of mixing those facets of color to form a specific color is not represented in COSMO. The attribute of being Opaque, i.e. of not permitting light to pass through. Specifying this can be useful in rendering objects in images, but perhaps it should be the default? NOTE that this is a ColorAttribute, and objects and substances can possess this attribute while also possessing other color attributes. COSMO note: Opacity is an attribute only of objects that have a certain size, or of solid substances; at molecular dimensions, almost nothing will absorb all of the light impinging on it. Cyc comment: #$Opaque is a #$PhysicalAttribute representing a specific degree of #$Transparency. #$Opaque objects do not transmit light. See also #$transparencyOfObject. isTheColorOf is a conceptual inverse of hasColor. This relation will seldom be used except where specific objects are associated with specific colors, as oranges, lemons, fire engines, etc. So we can make a statement: 'red is the color of tomato juice'. hasColor relates abstract symbols (abstract representations of things), substances, substance types, or individual objects to one or more colors that characterize the way that light is reflected from or passes through the object. For real-world objects, the color value will be a color region, which could be further restricted to a more specific color, down to a monochromatic color of specific saturation and intensity. The colors are represented as Types. COSMO note: Opacity is an attribute only of objects that have a certain size; at molecular dimensions, almost nothing will absorb all of the light impinging on it. Cyc comment: #$Opaque is a #$PhysicalAttribute representing a specific degree of #$Transparency. #$Opaque objects do not transmit light. See also #$transparencyOfObject. bd5138d4-74ba-11d6-8000-00a0c99cc5ae hasComponentSubstance is used to specify that some particular substance necessarily contains within it a component which is another substance. This is very broad, and can be used to specify multiple heterogeneous types of substance components, such as mixtures, pure chemicals, or elements. Thus we can say that blood contains protein, or that protein contains nitrogen. In addition to substances that are composed of whole molecules, we also permit representation of 'Substances' that are parts of molecules, such as 'phosphateGroup'. The latter type of substance will be represented by the Cyc 'MolecularComponent'. >> This relation is transitive. In order to specify a relation that points only to some primary component(s) (e.g. a polymer contains a unique type of monomer unit), a non-transitive relation such as 'hasMainComponentSubstance' must be used. Linguistically this relation is expressed by phrases such as 'the medicine contains . . .'. Corresponds to part of noun sense 1 of 'contain' in WordNet: 1. (119) incorporate, contain, comprise - - (include or contain; have as a component; "A totally new idea is comprised in this paper"; "The record contains many old songs from the 1930's") contain contain contain1v 'hasChemicalGroup' relates a ChemicalSubstance or ChemicalObject to some ChemicalObject that is part of or contained within the larger ChemicalObject or within some object that is a defining component of that substance. Corresponds to part of noun sense 1 of 'contain' in WordNet: 1. (119) incorporate, contain, comprise - - (include or contain; have as a component; "A totally new idea is comprised in this paper"; "The record contains many old songs from the 1930's") contain contain contain1v 'hasSolute' is used to specify that some Solution necessarily contains some specific substance dissolved in it. This relation might be made specific for 'Solution', but some Solution's may not be explicity represented as such. @ToDo: consider whether it should be required that all solutions be represented as 'Solution's? contain contain contain1v hasMainComponentSubstance is used to specify that some particular substance necessarily contains within it a dominant component which is another substance. The 'Main Component' substance pointed to will not necessarily be more than 50% of the total, but it will usually be percentage-wise greater than the other Substance components, and in rare cases (such as concentrated solutions of highly soluble solids) when another substance is of greater percentage weight, it should contribute significantly to the properties of the whole Substance; this is the case in some solutions, where the solvent will be pointed to by this relation, even though the solvent will occasionally not be the main constituent by weight. An example of this relation would be to point to Gold as the 'main compnent substance' even for 10-karat gold, where the Gold is less than 50% of the total weight of the Substance, but is the most salient component in terms of properties. For the case when a Substance has some significant properties that characterize a mixture, but may not necessarily be a significant fraction of the weight, the relation 'hasMainActiveIngredient' should be used. 'containsChemicalElement' is used to specify that some particular substance necessarily contains within it some specific 'ChemicalElement' hasComponentElement relates a Group to the individual elements of which the group consists. Any entity can be aggregated with another entity to form a conceptual Group. NOTE: this 'element' is not the chemical 'element'! See also the specializations of this relation, for OrderedGroups, indicating the location in the OrderedGroup of a particular element. See 'hasFirstElement' and 'hasSecondElement'. COSMO note: This is similar to the Cyc concept 'OrganicMaterial' but has been reinterpreted in COSMO as a substance, not an object. Also, in COSMO cellular substances suc as animal and vegetable materials are subtypes of OrganicSubstance, even though they contain up to 80% by weight of water. So it is not necessary that a substance be composed mostly of organic chemicals to qualify as an 'OrganicSubstance', but the organic compoounds should comprise most of the non-solvent portion of the substance.. Other than the object/substance distinction, it is close to 'OrganicMaterial', but whether there is any useful distinction has not been resolved as of COSMO version 0.48. For ***objects*** that are composed predomintly from stuff derived from living things, see 'OrganicObject'. NOTE that an OrganicSubstance can be complex, and can include inorganic substances such as water. For substances composed predominantly of organic chemicals, use 'OrganicCompound' COSMO: An OrganicSubstance is a PhysicalSubstance (not an Object) whose molecules (other than inert solvent such as water) are composed predominantly of carbon atoms bonded directly either to other carbon atoms or to hydrogen atoms. Many other elements may occur in organic substances, especially oxygen and nitrogen, but the dominant molecules should each have at least one of either a carbon-carbon or carbon-hydrogen bond. Cyc: A collection of tangible things. Each instance of #$OrganicMaterial is a tangible thing composed of one or more types of organic #$Molecule. Instances of #$OrganicMaterial usually have their origin in the bodies (or other products) of living things. Since some organic substances can be synthesized, #$OrganicMaterial is not a subcollection of #$NaturalTangibleStuff. Chemically, instances of #$OrganicMaterial have fairly (or very) complex carbon-based structures. Examples include all instances of the collections #$Oil, #$DNAStuff, #$Alcohol-Compound, #$Ivory, and #$AnimalBodyPart. bd58c3d0-9c29-11b1-9dad-c379636f7270 A Group consisting exclusively of PhysicalObjects. One may consider the collection of disjoint parts of a physical object as a Group, but in doing so one must ignore the relations among the objects, so the ObjectGroup consisting of the parts of a connected PhysicalObject is not identical to the whole object itself. NOTE: the range includes PhysicalObjectType so that we can point to a necessary element of a certain type without requiring that the inference engine Skolemize that type In SUMO, this is called a 'Collection'. NO identical Cyc class seems to be defined. SUMO: Collections have members like Classes, but, unlike Classes, they have a position in space-time and members can be added and subtracted without thereby changing the identity of the Collection. Some examples are toolkits, football teams, and flocks of sheep. A System consist of a group of two or more physical objects that are designed (by people or evolution) to work together to perform some function, plus the AttributeValues attached to those objects, and the relations among those objects - the attributes and relations are component elements of the Group, thus distinguishing a System from a simple group of Objects. There is therefore some significant relation between any Object in a System and some other Object in the System. The System is an aggregate consisting not only of the Objects, but also of the relations between them. This is the basic Entity that participates in Situations. The Attributes of the System as a whole are not component elements of the Group that comprise the system. A PersistentState of a System may include any subset of the Group of Attributes and Relations that are part of the System, and possibly some relations of the System as a whole to its external environment (e.g. orientation). NOTE: In Cyc something as simple as a shield or TurtleShell can qualify as a 'System' so the requirement for two objects may need to be taken liberally: a shield needs a handle to function, so the handle and plate of the shield can qualify as the two objects. Usually a System has several distinct Objects that interact in some way beyond merely being attached to each other. @@ToDo: Although this generic notion of System is not a PhysicalObject, it can have PhysicalObjects as subypes and instances. Representing a particular PhysicalObject or type of Object as a System is to assert a view of the PhysicalObject as something functional, and to provide a formal mechanism for discussing the structure and states of the System. The restriction that requires specifying an 'ObjectGroup' (or GroupType) will force the ontologist to specify at least some of the components of a System - the ObjectGroup specified should but does not have to include all of the Objects that characterize the System; therefore one may specify that an Object is a System but not be required to describe all of the component objects, just some of them. The view of a PhysicalObject as a System may at first seem to be a contradiciton: how can something be a GroupOfObjects and also be a System, which is a Group containing the same Objects, plus other things -(Attributes and Relations). This is not a Contradiction, precisely because an Object that is viewed as a System is not merely a GroupOfObjects - the view as a System describes the Object as a whole, whereas a View of its component parts is only a partial view of the Object. As of v0.52 this inclusion of different views of a complex object does not appear to be logically incoherent, and it does not appear that these alternate views will cause any problems. This is in a way reminiscent of Cyc's CompositeTangibleAndIntangible category, but judiciously used. Possibly the relations should be considered not as a part of the System, but an attribute, and that could avoid any logical problems.For later. Because a System is more than just the Objects it contains (it includes the relations), it is not represented as an ObjectGroup, but is related to the Objects it contains by the 'containsObjects' relation. Formally, the relations among the objects are part of the system but at this point it is not clear that attempting to represent those relations generically will be useful. Perhaps that will be useful at a future point. Note that a System, whether artifactual or natural, must have a DesignFunction. If the System is broken, diseased, or malfunctioning it may not be able to perform that function, but will still retain its identity as a System because the identity arises from the purpose (human or evolutionary) for which the System was created. Each 'IntensiveAttributeValue' is an AttributeValue that may be qualitative or quantitative, and expresses an intensity of some AttributeType. This is very general. Certain IntensiveAttributeValues may take both verbal intensive values (high'. 'medium', 'low'. and numerical values 'the drug is only 25% effective at preventing cancer'. COSMO: a Capability is an attribute of some physical object or PhysicalSubstance that specifies some role that that object or substance may play in events or processes. This is a very broad concept, including participation in actions (as agent or instrument or object acted on) and passive processes. Linguistically, 'Capability' is a nominalized form of 'capable', but in COSMO the adjective and nominalized form are represented as a single concept. In general, it is not necessary or desirable to list all the roles that an object may play, as in many cases those roles may be very numerous. This 'attribute' would be used rather to indicate the more salient roles that an object can play. For example, a Person who has a particular talent or skill could have that skill specified (e.g. 'AbilityToDanceTheTango'); a company that can make a particular product would have that capability specified (e.g. 'AbilityToManufactureWidgets'). For people, Capabilities to do specific actions often come in a wide range of degrees of expertise. Another important 'Capability' is categorized under the subtype 'Tendency', which specifies the way that an object is likely to behave; the tendency of non-living organic material to decompose when not frozen is an example of such a tendency. See 'Tendency' for additional discussion of that subtype. NOTE that to have a Capability does not mean that it is possible for the agent to perform that action at any time, or even that the agent has performed that action. There may be motivational inhibitions or blocking conditions that prevent an agent from exercising a Capability at any given time and place. Each CapabilityType represents the ability to serve in some Role in some type of Action or Event. The RoleType and ActionType are specified by the relations 'isAbilityToServeInRole' and 'isAbilityToServeInActionType', repsectively. For any given Capability Type, the Roles and ActionTypes specified are interpreted to mean that the entity having that capability can serve in any of those Roles, in any of those Actions. **But** is is understood that for any given situation, there may be circumstances that prevent the Agent or Object from serving in that Role. The Roles may be as Agent, to initiate evens, or as Instrument, to facilitate the actions of an Agent. @ToDO: do **computer programs** have Capabilities or only the computer that runs the program? If the program itself has capability, then this attribute would not be a property only of PhysicalObjects. How to specify that a ComputerProgram enables a computer to do things? Not resolved as of v0.48. Similar to a learned capability? Is a ComputerProgram a form of learning - at least when installed? To dissect individual capabilities, it is useful to create instances of the subtypes of this Type (InstrumentCapability or AgentCapability), and each of those instances should specify exactly what type of Action the role (Agent or Instrument) is effective in. A Capability will usually be labeled with an infinitive verbal form, with or without an object, such as 'ToDance' or 'ToEnableTelecommunication'. Each subtype of Capability is a role in some type of action that some Object can perform or assist in performing. One subtype of this is 'Function', specifically a type of action for which an object has been designed, either by some IntelligentAgent or by Evolution. Capabilities generally have more than one degree - as in 'Intelligence'. In CYC, classes representing types of capability are signaled by making them instances of a metaclass of 'capabilities'. COSMO avoids metaclasses except where necessary to serve as the type restriction on a relation's argument. Thus 'CapabilityType' is defined for that purpose. Instead of asserting a Capability on an Object, where the Role and ActionType are referenced by the CapabilityType, it is also possible oin COSMO to directly specify that an Object can serve as an Agent or Instrument by use of relations on instances or Types of Objects: canServeAsAgentInActionType canServeAsInstrumentInActionType . . . but the rules relating the logical implications of these assertions and those of asserting a CapabilityType are not representable in a simple OWL format. Extensions may use SWRL for this. The relation between a 'Capability' and the actual instance of physical action is 'wasRealizedByAction'. @ToDo: more elaboration needed (v0.45). Higher-arity relations would be useful here: {{?x hasCapability ?y} impliesThat {?x canPerformRole ?ROLE inEventType ?EVENTTYPE}} NOTE the triangular relation: an Artifact hasDesignFunction which is a CapabilityType, A Capability or Function wasRealizedByAction which is an *instance* of an Event or Action Type. see also 'ableToAffect' Cyc NOTE: Cyc has several higher-arity relations that relate an object or person to their ability or intended function. Similar relations may be defined when COSMO is convertable to FOL ******** QuaternaryPredicate rdf:ID='actsInCapacity'> rdfs:comment The predicate #$actsInCapacity indicates the capacity in which an agent participates in certain kinds of actions. (#$actsInCapacity AGENT ROLE SCRIPT-TYPE CAP) means that the agent AGENT plays the role ROLE in instances of SCRIPT-TYPE, and s/he does that role in the capacity CAP. CAP is a #$CapacityAttribute (q.v.) which describes the AGENT's mode of participation-e.g., as a job, hobby, main function, support function, etc. Contrast three cases of acts of #$GreetingSomeone, when #$performedBy: (1) instances of #$Receptionist, in their #$JobCapacity and as their #$MainFunction; (2) instances of #$FlightAttendant, in their #$JobCapacity but as a #$SupportFunction; and (3) instances of #$TrainEngineer, in a #$HobbyCapacity (though they do it while working, it's not part of their job) /QuaternaryPredicate TernaryPredicate rdf:ID='actsInCapacity-IntendedFunction' rdfs:comment: An instance of #$CapacityPredicate (#$actsInCapacity-IntendedFunction AGENT ROLE EVENT-TYPE) holds just in case when AGENT is performing ROLE in events of type EVENT-TYPE the agent is performing the event as one of its intended functions. For instance, if a stock broker is the buyer of stocks in some #$StockTrading, then (#$actsInCapacity-IntendedFunction Bob-TheStockBroker #$buyer #$StockTrading) holds. /TernaryPredicate TernaryPredicate rdf:ID='actsInCapacity-JobCapacity' rdfs:comment(#$actsInCapacity-JobCapacity AGT ROLE EVT-TYPE) holds just in case AGT's ROLE in acts of EVT-TYPE is in the capacity of a job. /TernaryPredicate ****************** Corresponds to parts of noun sense 1 of 'capability' and sensess 1 and 3 of 'power' in WordNet; the more specific ability of agents is represented by 'AgentCapability'.: 1. (674) power, powerfulness - (possession of controlling influence; 'the deterrent power of nuclear weapons'; 'the power of his love saved her'; 'his powerfulness was concealed by a gentle facade') 3. (77) ability, power - (possession of the qualities (especially mental qualities) required to do something or get something done; 'danger heightened his powers of discrimination') WN 'capability': 1. (8) capability, capableness - (the quality of being capable - physically or intellectually or legally; 'he worked to the limits of his capability') power power power1n power3n capability capability1n A DesignFunction is the ability to do something or to enable doing something by acting as an instrument. This notion encompasses two different roles in an Event, and is therefore an aggregate concept that is high-level in COSMO. Its subtypes will be roles in Events which may be Actions (doing something) or merely non-active participations (being an instrument). This is the function that an artifact is designed to perform, when it is designed to perform a function, or the function that an evolved part of an organism is designed to perform, by evolution. SituationRole is a compound Type representing both a Situation and a Role. This category was created specifically to allow an inherently Ternary relation (the Cyc intendedPrimaryFunction) to be represented as binary. it will include a Situation and a Role which specifies the function of an Object in that Situation. ToDO - to be useful, the structure of this Type needs elaboration. The property of substances or objects that are considered (by their possesor) to have no positive value. This is used for a lack of either monetary, emotional, or social value. However, **NOTE** that such objects or substances may be considered by someone else as having some value, so this is not disjoint with 'ValuableThing'; and exampel is 'Scrap', material thrown out by its owner that nevertheless can be reprocessed into useful material. Corresponds to adjective sense 1 of 'worthless' in WordNet: 1. (1) worthless - (lacking in usefulness or value; "a worthless idler") worthless worthless1adj An EvaluativeAttribute is a QualitativeAttributeValue for some entity, concrete or abstract, that reflects the judgment of an IntelligentAgent regarding that entity. the judgment may be objective or subjective, but will be relative to some purpose. @ToDo: in assigning an 'EvaluativeAttribute', it should be necessary to specify the agent who has assigned that attribute value - but at this point (rev833) there is no mechanism for specifying the agent directly, other than in a reified assertion. The property of substances or objects that are considered (by their possesor or potential possessor) to have some positive value. This is for both monetary and emotional value. For high levels of value, the monetary and emotional are distinguished as 'Precious' and 'cherished', respectively. Includes both adjective senses 1 and 2 of 'valuable' in WordNet: 1. (16) valuable - (having great material or monetary value especially for use or exchange; "another human being equally valuable in the sight of God"; "a valuable diamond") 2. (5) valuable, worthful - (having worth or merit or value; "a valuable friend"; "a good and worthful man") Anything that has value to a cognitive agent. The value does not have to be monetary, it can be sentimental. The thing can be an object, a right, a substance, or something intangible such as friendship or knowledge. Anything that would cause distress to an agent if it were lost is a valuable thing. Anything that can be used to help an agent achieve desired goals (e.g. food) is also a valuable thing - see the subtype 'Resource'. Anything that an intelligent agent would pay money to obtain is a valuable thing; in this case, the 'value' is at least approximately quantifiable. NOTE that 'valuable', as with 'Worthless' are EvaluativeAttributes, and some people may consider a thing 'valuable' while others consider it 'worthless'; the two are not disjoint. A PhysicalObject that is an Artifact (created by animal, Organization, or automaton). COSMO note: this class was merged with the Cyc 'Artifact-HumanCreated' because little difference could be discerned, though in COSMO objects crated by animals or automatons are also considered as ArtifactObjects. Most instances of Artifact will be created by humans - people, groups, organizations, or their automaton servants. Artifactual objects created by non-humans (e.g. animals) will also be instances of ArtifactObject (e.g. 'SpiderWeb', bird's nest). Things made by non-animate natural forces (e.g. river channels) are not included in this type. Artifact( Cyc and SUMO); material-artifact(DOLCE) SUMO: A CorpuscularObject that is the product of a Making. Cyc comment for ;Artifact-HumanCreated': A collection of individual #$Artifacts. Each instance of #$Artifact-HumanCreated is a tangible thing made by an instance of #$HomoSapiens, or by a (#$GroupFn #$HomoSapiens). Examples include instances of #$Clothing-Generic, #$Automobile, #$DrainageCanal, and #$HydroelectricDam. OPENCYC 1: MAY 23, 2002 A specialization of #$InanimateThing. Each instance of #$Artifact is an at least partially tangible thing which was intentionally created by an #$Agent (or a group of #$Agents working together) to serve some purpose or perform some function. In order to create an instance of #$Artifact, it is not necessary that an #$Agent create the matter out of which the #$Artifact is composed; rather, an #$Agent can create an instance of #$Artifact by assembling or modifying existing matter. Examples of #$Artifacts include a wooden flute that's been whittled from a tree branch, a sawhorse that's been put together out of boards and nails, and a coin that's been minted by embossing or by melting liquid silver into a mold. In addition to the obvious human artifacts (buildings, tools, textiles, power lines), the collection #$Artifact also includes certain sorts of things made by #$Animals, such as bird nests, termite mounds, and beaver dams. Artifacts without any tangible parts are excluded from the collection #$Artifact; they are included in the collection #$Artifact-Intangible. DOLCE: material-artifact: No easy definition of artifactual properties is possible, hence it is better to rely on alternative descriptions and roles: a physical object that shows or is known to have an artifactual origin that counts in the tasks an ontology is supposed to support, will be a material artifact. On the other hand, physical objects that do not show that origin, or that origin is unimportant for the task of the ontology, will be physical bodies. Formally, a restriction is provided here that requires that the collection whose members are (at least some of the) proper parts of a material artifact is *unified* by a plan or project. Corresponds to noun sense 1 of 'artifact' and sense 3 of 'thing' in WordNet: WN 'artifact': 1. (1) artifact, artefact - (a man-made object taken as a whole) WN 'thing': 3. (224) thing - (an artifact; "how does this thing work?") artifact artifact artifact1n thing thing thing3n See also intendedPrimaryFunction - should be merged?? This specifies the Action part of SituationRole, where the Situation is an Action. An axiom should relate them. hasDesignFunction relates a PhysicalObject or Substance (usually an artifact) or a System (i.e. something created for a purpose, which may be a natural biological System) to the action(s) that it is intended to perform, or can help perform. This relation answers the questions 'what is it good for?' or 'What does it do?'. Individual PhysicalObjects that are not artifacts are not included inb the domain of this relation. For natural objects that have a function (e.g. biological), only thtype of object, not the individual oject, can serve as the subjet of this relation. Note that this is close to but not identical to the relation 'enablesOrAssists' for resources. The distinction is threefold: (1) resources do not have to be artifacts; (2) each artifact is classified by its design (intended) function, but it may actually not be useful for that purpose; (3) an Artifact may enable or assist actions that it was not designed to be used for. ***************** CAUTION ********************************* **NOTE** This relation points to an ActionType or EventType. There are instances of ActionType that are subtypes of Action, but also there are Types that are subtypes of 'DesignFunction' which are also instances of ActionType, but these latter types are **not** subtypes of Event, rather subtypes of 'AttributeType'. This is a very unusual use of a relation to point to arguments of very different inherent type. The 'Functions' that are pointed to by this relation may in turn be related to actual instances of Event by the relation 'wasRealizedByAction' (which see), There is thus a triangular relation between Functional objects, the Functional capabilities (attributes) they have, and the actual Actions that may be carried out or assisted by those Objects. These relations Permitting the ontologist to point either directly to Actions, or to Attributes that point to actions, provides some flexibility. it should be underestood and used with care. ***************** CAUTION ********************************* Many artifacts will be related to actions by both relations. If not for caveat (2), 'hasDesignFunction' would be a subrelation of 'enablesOrAssists'. Another difference is that the design function of artifacts will in general be more specific than the actions enabled by resources. 'isInsideOf' is a specialization of 'isLocatedAt' specifying that the subject is located within the Region defined by the outer limits of the containing Object or Region. This includes the notions of being a physical part of something, and being contained inside a container, as well as being within some spatial reagion. Those individual senses are subrelations of this relation. This relation also includes the sense of one substance being contained in another; even though that sense is already represented by 'hasComponentSubstance', the notion of 'inside' can include the notion of being part of a mixture, so it is included here as a way to relate these general notions. inside inside inside2adv 'isContainedIn' is the inverse of 'contains' and expresses a very general notion of some physical entity being 'contained' in some way in something else. This does not apply to abstract entities - see 'isContainedInSymbolicObject'. Although this relation implies that the contained thing 'isLocatedAtOrOn' the containing thing, this cannot be a subproperrty because substances are included in this relation. This generic location relation only specifies that the thing contained is somewhere either (1) within the convex hull of the containing thing, or (2) piled on or resting in an open-top container, being held in place by the force of gravity. Things that are contained in a container must move in synchronization with the container when the container is moved. Thus a flower in a vase, that extends above the top of the vase, 'isContainedIn' the vase. NOTE: the case of something that is partly in an object, extending beyond the limits of the object, but held to the object by some topological constraint is not included in this relation. That relation would be subsumed by 'isConnectedTo'. inside inside inside2adv contains is a very general relation that specifies that some PhysicalObject or PhysicalSubstance.is contained, in some way, in the subject entity. The subject entity does not have to be a Container. For the 'containment' relation between AbstractSymbolicObject's (texts, documents, strings) use 'containsSymbolicObject' or its inverse 'isContainedInSymbolicObject'. @ToDo: needs review for relationship to substance containment (substances may not be needed here). This may be too hetereogeneous. NOTE that a Region of space can also 'contain' something. NOTE that this differs from 'isLocatedAt' in that the containment relation requires that the thing contained is not a part of the containing thing. Thus one PhysicalObject can contain another PhysicalObject only if the containing PhysicalObject has a cavity of some kind. This restriction does not hold for the general 'isLocatedAt' relation. However, 'contains' does not include Events as either subject or object. For Events, use 'occurredAt'. As a generic 'contains' relation, this relation will also include the 'containment' of Substances by PhysicalObjects. The relation on Substances is more properly handled by the specific substance relations 'hasConstituentSubstance' and 'containsSubstance' This 'contains' relation is more generic, to accommodate the ambiguous linguistic 'contains' assertion, to provide a direct conceptual definition of that notion. OBO_REL: 'contains' is similar to this relation, but has some differences OBO documentation for OBO rel 'contained_in': OBO Definition: C contained_in C' if and only if: given any instance c that instantiates C at a time t, there is some c' such that: c' instantiates C' at time t and c located_in c' at t, and it is not the case that c *overlaps* c' at t. (c' is a conduit or cavity.) OBO Comments: Containment obtains in each case between material and immaterial continuants, for instance: lung contained_in thoracic cavity; bladder contained_in pelvic cavity. Hence containment is not a transitive relation. If c part_of c1 at t then we have also, by our definition and by the axioms of mereology applied to spatial regions, c located_in c1 at t. Thus, many examples of instance-level location relations for continuants are in fact cases of instance-level parthood. For material continuants location and parthood coincide. Containment is location not involving parthood, and arises only where some immaterial continuant is involved. To understand this relation, we first define overlap for continuants as follows: c1 overlap c2 at t =def for some c, c part_of c1 at t and c part_of c2 at t. The containment relation on the instance level can then be defined (see definition above) hasConstituentSubstance relates physical objects or regions to the substance(s) which form some part of the composition of the object or region. The component substance pointed to in this relation does not have to be the main component, and the object does not have to have a uniform distribution of substance types. If the component substance does form a larger weight fraction than any other substance, the relation 'consistsMostlyOfSubstance' should be used instead. One could say that a {shovel hasConstituentSubstance Steel}, even if the handle is wooden. We can use a relation which also specifies the actual weight fraction of each substance, but such a relation would be ternary, and cannot be directly supported as an OWL 'property'. NOTE that In Cyc the 'substances' (or stuffs) were represented as objects made of a particular substance. In COSMO we distinguish the object from its composition, and this relation specifies, where it makes sense to do so, what the substance compostion of particular objects is. NOTE that this relation is a subProperty of the generic 'hasPart' relation. The 'hasPart' relation has no implications, and is used only as an umbrella to collect all the 'part' relations that may ber used in language. The notion of a substance being a 'part' of an object may be the least common use of 'part', but it is found, and this subproperty relation allows it to be used in this ontology. COSMO note: adapted from CYC: this diiffers from the more generic 'contains' in that it does not apply to substances, only to spatial regions or objects. CYC: (#$spatiallyContains CONT OBJ) means that #$SpatialThing OBJ is within the convex hull of some other #$SpatialThing CONT. #$spatiallyContains is agnostic as to whether OBJ is a part of CONT, fully inside of CONT (as opposed to sharing an outer surface with it), or moves with CONT (see #$movesWith). #$spatiallyContains is a very general predicate, so a more specific predicate is almost always applicable. For example, if OBJ #$movesWith CONT, the slightly more specific predicate #$physicallyContains is applicable. be21c3b1-9c29-11b1-9dad-c379636f7270 containsObjects is a specialization of 'contains' that points to an ObjectGroup that is contained in some aggregate entity or region. This relation allows the definition of some Group of PhysicalObjects and relating it to another entity where that group is 'contained' in some sense, without being part of the containing thing. A System can contain other Systems (which contain objects), so the range includes System COSMO note: adapted from CYC, differs from the parent property in that it does not apply to spatial regions, only to physical objects. CYC: (#$physicallyContains CONT OBJ) means that CONT physically contains (i.e., includes or at least partially surrounds) the object OBJ. #$physicallyContains is agnostic as to whether or not OBJ is a part of CONT and as to whether OBJ is fully inside of CONT. (#$physicallyContains CONT OBJ) it is true that whenever CONT moves, OBJ moves. (A container-predicate whose GAFs do not imply co-movement is #$spatiallyContains (q.v.).) Note that a more specific predicate than #$physicallyContains is almost always applicable -- e.g., #$physicalDecompositions (q.v.) or a more restrictive predicate should be used if OBJ is definitely part of CONT, and #$surrounds-3D (q.v.) or a more restrictive predicate should be used when partonomy is to be ruled out. For example, although #$physicallyContains expresses the relationship between an instance of #$Brain and the head that it is in, #$internalParts (q.v.) is more precise. #$in-ContClosed (q.v.) is more appropriate to specify the relationship of a #$Brain in a #$Skull. The body of a pregnant woman #$physicallyContains a #$Placenta. Since a portion of the placenta is a part of the woman's body, while other portions of it are part of the #$Fetus's body, no more restrictive predicate applies. bd58b802-9c29-11b1-9dad-c379636f7270 The inverse of 'hasConstituentSubstance'. consistsMostlyOfSubstance relates physical objects or physical object types that have a relatively homogeneous spatial distribution of component substances to the substance(s) which form the dominant composition. If the component substance does not form a larger weight fraction than any other substance, the relation 'hasConstituentSubstance' should be used instead. Thus a drinking glass will be composed of glass, a lake of water, a structural I-beam of steel. In Cyc the 'substances' (or stuffs) were represented as objects made of a particular substance. In COSMO we distinguish the object from its composition, and this relation specifies, where it makes sense to do so, what the substance composition of particular objects is. Eacj 'ObjectConsistingOfSubstance' is a PhysicalObject that is characterized, among other things, by the substance of which it consists. In Cyc, named 'OrganicMaterial'. This can be a solid or liquid, and can be an object composed of complex material from a living thing, or an organic chemical of defined composition. Objects composed of any form of Organic Chemical are instances of this type. Cyc: A collection of tangible things. Each instance of #$OrganicMaterial is a tangible thing composed of one or more types of organic #$Molecule. Instances of #$OrganicMaterial usually have their origin in the bodies (or other products) of living things. Since some organic substances can be synthesized, #$OrganicMaterial is not a subcollection of #$NaturalTangibleStuff. Chemically, instances of #$OrganicMaterial have fairly (or very) complex carbon-based structures. Examples include all instances of the collections #$Oil, #$DNAStuff, #$Alcohol-Compound, #$Ivory, and #$AnimalBodyPart. bd58c3d0-9c29-11b1-9dad-c379636f7270 The subcollection of #$PartiallyTangible whose instances are not like fluids. #$NonFluidlike objects do not flow and have an intrinsic shape. #$NonFluidlike is primarily a collection union of #$SolidTangibleThing and #$SemiSolidTangibleThing. It is useful as a genl collection for certain collections whose members can be both #$SolidTangibleThings and #$SemiSolidTangibleThings, like #$Deformable. fe5bdeb6-74b9-11d6-8000-00a0c99cc5ae A subcollection of #$PartiallyTangible. Each instance of #$InanimateThing is an (at least partly) tangible thing that is not currently a living structure. Things that were never alive, dead organisms, and dead (or completely non-functioning) organism parts are included in this collection. Examples: #$YaleUniversity, a piece of #$Meat, a dead armadillo, the #$StatueOfLiberty, and a pile of #$Sawdust. Two important specializations of this collection are #$InanimateThing-Natural and #$InanimateThing-NonNatural. bd5905ea-9c29-11b1-9dad-c379636f7270 In OpenCyc this class is a collection of pieces of crystalline material. In COSMO it is reinterpreted as an attribute of some solids. Cyc: The collection of instances of #$PartiallyTangible having a solid crystalline structure. In a crystalline solid the atoms, ions, or molecules are ordered in well-defined arrangements. These solids often have flat faces that make angles with one another. They are frequently translucent and brittle. 892632f8-74bf-11d6-8000-00a0c99cc5ae In OpenCyc called 'Crystalline'. Cyc: The collection of instances of #$PartiallyTangible having a solid crystalline structure. In a crystalline solid the atoms, ions, or molecules are ordered in well-defined arrangements. These solids often have flat faces that make angles with one another. They are frequently translucent and brittle. 892632f8-74bf-11d6-8000-00a0c99cc5ae A specialization of #$InanimateThing-Natural. Each instance of #$Mineral is a piece of homogeneous inorganic physical substance that has a crystalline structure. Specializations of #$Mineral include the collections #$Diamond, #$Turquoise-Gem, #$Jade-Gem, and #$Corundum. c1008900-9c29-11b1-9dad-c379636f7270 COSMO note: In COSMO, this is a substance, not an object. There are some inorganic materials, such as carbon dioxide and carbon tetrachloride, that contain carbon. So carbon content is not the only criterion to distinguish organic from inorganic substances. Cyc: A specialization of #$InanimateThing. Each instance of #$InorganicMaterial is a tangible thing wholly composed of one or more types of inorganic molecule. Instances of #$InorganicMaterial usually didn't originate as parts or products of living things. Notable specializations of #$InorganicMaterial include #$Mineral, #$Metal, and #$Glass. bd590a05-9c29-11b1-9dad-c379636f7270 COSMO note: This Cyc category is reinterpreted in COSMO to include certain subtypes of 'PhysicalSubstance', that are not subcategorized solely on the basis of composition, or inherent properties depending on composition, but of other attributes, such as state of matter (e.g. SolidSubstance or Gas). One such category is 'CommodityProduct' which treats commercial products sold in quantities (such as potatoes, onions) as 'substances'. Cyc: A collection of collections, and a specialization of #$TemporalStuffType. Each instance of #$ExistingStuffType is a collection of things (including portions of things) which are both temporally and spatially stufflike. Division in time or space does not destroy the stufflike quality of the object (down to a certain granularity). (#$isa STUFFTYPE #$ExistingStuffType) implies both (i) for most instances STUFF of STUFFTYPE, for any proper physical part (see #$physicalParts) PART of STUFF, PART is also an instance of STUFFTYPE and (ii) for all instances STUFF of STUFFTYPE, for most proper physical parts PART of STUFF, PART is also an instance of STUFFTYPE. For example, every piece of wood is temporally stufflike: if W-168 is a piece of wood during 1996, then it's also a piece of wood for the one-minute time-slice 9:05am 7/7/96. It's also spatially stufflike: if we take that piece of wood W-168 and cut it in half, we have two things which are both pieces of wood. Since every piece of wood is both temporally and spatially stufflike, #$Wood is an instance of #$ExistingStuffType. Other instances of #$ExistingStuffType include the collections #$AppleJuice, #$IceCream, #$Diamond, #$WaxedPaper, and #$StriatedMuscle. See the comment for #$StuffType to learn more about the distinctions between, and the need for, these four collections: #$StuffType, #$ObjectType, #$ExistingStuffType, and #$ExistingObjectType. bd59f2ea-9c29-11b1-9dad-c379636f7270 A #$SecondOrderCollection and a specialization of #$ExistingStuffType (q.v.). Each instance of #$TangibleStuffStateType is a collection of pieces of tangible stuff that are all in the same distinct physical state, where the notion of physical state is a naive (as in #$NaivePhysicsMt) concept of a distinctive physical structure and/or texture. Some instances of #$TangibleStuffStateType have distinctive chemical compositions, such as #$Diamond; but for collections that are distinguished _solely_ on the basis of chemical composition, see #$TangibleStuffCompositionType. #$TangibleStuffStateType includes both (i) collections of substances that can exist only in one distinct physical state (e.g. #$Diamond again) and (ii) collections of pieces of stuff that by definition are in a certain distinct state (e.g. ice). Instances of #$TangibleStuffStateType include #$Foam, #$Rubble, and (#$LiquidFn #$Water). Note that #$Water per se is _not_ an instance of #$TangibleStuffStateType, since some water is in a gaseous state or a solid state. See also (the somewhat orthogonal) #$PhysicalStructuralAttribute. be00c400-9c29-11b1-9dad-c379636f7270 COSMO note: In Cyc, this was 'SolidTangibleThing', a collection of objects. In COSMO, we rename and repurpose this category to be a solid substance, with subtypes that are substances that are solid at normal temperature and pressure. Cyc comment: An instance of #$ExistingStuffType, and a specialization of #$PartiallyTangible. Each instance of #$SolidTangibleThing is a piece of stuff possessing many of the properties that matter in a solid state (see the constant #$Solid-StateOfMatter) exhibits (although not all instances of #$SolidTangibleThing are formally in a solid state). Instances have a shape independent from their container, and, when deformed with sufficient force (which may be small for weak, brittle materials or high for materials that deform easily), they break. Examples of #$SolidTangibleThings include: pieces of substances in a solid state of matter, such as ice cubes; solid mixtures like a quarter-dollar coin or a paper bag; and complex mixtures of biological origin that behave like solids, e.g., bone. Note that some pieces of matter that are formally in a solid state (for example, pieces of clay) are not instances of #$SolidTangibleThing, since they do not readily break when deformed; for this reason, #$Solid-StateOfMatter is _not_ a specialization of #$SolidTangibleThing. Collections of the solid form of any type of stuff can be created using #$SolidFn (q.v.). bd58c494-9c29-11b1-9dad-c379636f7270 COSMO note: In Cyc, where there was no taxonomic distinction between substances and objects, this metatype was used to label both substances (in some particular form) and objects. In COSMO, this is also neutral with respect to object or substance, and is used as a parent class for certain substances having particular forms. These categories can serve as ?X in the phrase 'given as an ?X' in pharmacy descriptions. Cyc comment: Drug products organized according to their form when they are given as doses. c10ae97e-9c29-11b1-9dad-c379636f7270 A PhysicalSubstance that is in a solid and usually crystalline form, and inorganic (possibly except for some small amount of included organic material), In COSMO this is a Substance, not an Object, whereas the Cyc term is an Object. This is the solid substance: when molten it is not considered 'Mineral' in COSMO. A Mineral need not be natural (found in the ground), only crystalline and inorganic. Cyc: A specialization of #$InanimateThing-Natural. Each instance of #$Mineral is a piece of homogeneous inorganic physical substance that has a crystalline structure. Specializations of #$Mineral include the collections #$Diamond, #$Turquoise-Gem, #$Jade-Gem, and #$Corundum. SUMO: Any of various naturally occurring homogeneous substances (such as stone, coal, salt, sulfur, sand, petroleum), or synthetic substances having the chemical composition and crystalline form and properties of a naturally occurring mineral. c1008900-9c29-11b1-9dad-c379636f7270 An OrganicObject is an object at least as large as a cell of an organism, that consists predominantly of substances which are living or are derived from living things, or are synthetic substances similar to those found in living things. An OrganicObject may be living or dead, or if dead, highly processed, providing that the main active constituent is derived from or similar to those in living things. Thus one muscle or one apple pie would each be an OrganicObject, but one virus particle would be too small to qualify. A macroscopic object consisting of macromolecules such as protein, nucleic acid, or polysaccharide similar to those found naturally would be OrganicObjects, but a quantity of small molecules such as alcohol or amino acid would not be. In the triad 'animal, vegetable or mineral', this would be either of animal or vegetable. NOTE that this Type is disjoint with MineralObject, though an OrganicObject may have some minor portions of Mineral in it. NOTE in particular that a Corpse, skeleton, and FuneraryAshes are classified as 'OrganicObject' although a strong fire may have removed almost all of the carbon in it. COSMO note: as of version 0.49, this category is not properly represented. COSMO has 'Corpse' as a subtype of 'BiologicalLivingObject' and these need to be distinguished. Cyc: The collection of all structures that are composed of one or more living cells (see #$Cell). Note that this can be solid or liquid, because blood and lymph are composed of cells. Biological living objects (or BLO s) might either be instances of #$Organism-Whole (like dogs or pine trees) or components of such whole living organisms (like noses, tails, and pine needles). The healthy leg of a living person is a BLO (as is the person), but an amputated leg is not a BLO. Almost every instance of #$BiologicalLivingObject is either capable of biological reproduction itself or has components which are capable of biological reproduction (such as the cells in a living arm). Red blood cells are abnormal instances of BLO in that they cannot reproduce. bd58a6ed-9c29-11b1-9dad-c379636f7270 COSMO note: an object is considered as an OrganismPart even if it was severed from the Organism of which it was originally a part. The distinction, when required, between in situ and separated parts is made by assigning attributes to the part. A specialization of both #$PhysicalPartOfObject and #$BiologicalLivingObject. Each instance of OrganismPart is an anatomical part of an organism. This collection includes the gross anatomical parts and microscopic anatomical parts of every individual of every species. In SUMO, approximate equivalent is 'AnatomicalStructure' SUMO: A collection of Cells and Tissues which are localized to a specific area of an Organism and which are not pathological. The instances of this Class range from gross structures to small components of complex Organs. c1005766-9c29-11b1-9dad-c379636f7270 'hasAssociatedObject' relates one PhysicalObject (or PhysicalObjectType) to another PhysicalObject that is associated with it in some significant way. The subproperty 'hasPhysicalPart' is the most common, but this relation can also be used to specify 'attributes' of Objects that involve some relation with other Objects. For example, a Fingerprint is an Object, and an Object cannot be an Attribute, therefore a Fingerprint cannot be the value of a 'hasAttributeValue' relation. However, an AttributeValue ('FingerprintAttribute') can be defined that points to a Fingerprint using this relation. Other such specialized AttributeValues may also be conveniently described this way. Inverse of isaPhysicalpartOf. Used at the instance level, this creates a Time-dependent assertion that some physical object has a particular part. This is a subproperty of 'isaProperPartOf' and implies that there are other parts. Note that to 'have' a physical part does not necessarily mean that the physical part is connected to the main body of the object that has it. A musical instrument, disassembled in its carrying case, can be said to exist and have all of its parts present, even though they are not connected. To be sure that an object is **functional** requires more than just knowing that all of the required parts are present. When used between types, an assertion using this relation is to be interepreted as meaning that every instance of the subject has an instance of the objects as a part; but this form of relation does not require that the object instance be instantiated. How to handle this information will depend on the program using the ontology. isNearTo specifies that some GenericLocation (an Object or a Region) is 'near' to another, but (usually) not touching the other. 'near' is relative to the size of the things being related. To be 'near' another region or object, the distance from one Object or Region to the other must be within two diameters of the larger object or region. NOTE that 'isSupportedBy' is a subproperty of 'isNearTo'. If two objects are touching, that can be represented as a 'TouchingState'. In SUMO treated as an attribute: SUMO: (Near) The relation of common sense adjacency. Note that, if an object is Near another object, then the objects are not connected.. This is the most generic generic 'location' relation, and differs from its subProperty 'isLocatedAt' only in that to be 'located at or on' includes the possibility that some pile of objects may be located in some open container and extend beyond the top of the container, but will move when that container moves because it is held to the container by the force of gravity or by some topological constraint. The subproperty 'isLocatedAt' means that the thing located is wholly located within the spatial region coextensive with the ConvexHull of the thing or place where it is located. Thus a pile of coal in an open railway coal car can be said to be 'contained' in the coal car even though it may extend above the top of the coal car; it will go wherever the coal car goes, as long as it satisfies this relation. Likewise, flowers in a vase are located 'at or on' the vase, though they typically extend beyond the top of the vase, and the top of the flowers may even be above the vase by more than the height of the vase. The 'isContainedIn' relation is a subproperty of this relation; therefore if {?x isContainedIn ?Obj} then {?x isLocatedAtOrOn ?Obj}. NOTE, however that 'isSupportedBy' is not a subtype of 'isLocatedAtOrOn' because the supporting object may be flat and extensive, and the supported object may extend well above the surface of the supporting object.. A general 'location' relation for objects and regions and substances (but not for Events - use 'occurredAt'). The location can be a region of space (connected or disconnected) or an object (physical or abstract). Being 'located' at an Object means being located within the ConvexHull of the Object; therefore a Hole in an Object, which contains no part of the Object 'isLocatedAt' that Object. Also, recall that a GeographicalRegion includes some space above the surface of that region, so it is possible that ?obj isLocateAt a GeographicalRegion even if it is in the air not far above the surface of that region. If a pile of objects or a large object is 'contained' in an open-top container, and extends above the top of that container, it cannot be said to be 'located at' that container, in this sense. For that case, use 'isContainedIn' or its parent 'isLocatedAtOrOn'. The value (object) of this relation answers the question 'where is it?' (for the subject) in some sense. Somewhat non-intuitively, this relation can be used to specify that some set of beliefs (a BeliefSystem) is held by one or more people, since the BeliefSystem is considered an InformationStore that can have a physical location; that is, beliefs are located in the heads of people, or of Groups of people. However, NOTE that specific instances of a disease cannot be 'located' in people by this relation, because a Disease is considered as an Event. Use 'occurredAt' for relating specific instances of Disease to particular people or groups of people. NOTE that when it is asserted that a 'Substance' isLocatedAt some place, that is a stand-in for the more logically meaningful assertion that some unspecified quantity of a Substance is located at that place. NOTE that this is an instance-level relation and describes where an object is actually located at some particular time. For describing where objects typically are located (e.g. parts of the body), use 'isNormallyLocatedAt', a relation that can take a individual Object or an ObjectType as the subject NOTE: 'isLocatedAt' may be used with an instance of 'TimeAndPlace' (a four-dimensional portion of space-time) in the object position of the relation, to specify the location of some thing (but not Events) over some interval of time, using a binary relation. Although this relation is transitive, there are permitted range instances that cannot bw located at some permitted domain instances: for example, a 'TimeAndPlace' will never be locatedAt an Object or region that is not itself Four-dimensional, unless the domain instance is nominally a TimeAndPlace, but with the Time dimension of zero length, in which case the domain instance is effectively three-dimensional. But in general, if the subject is a TimeAndPlace, the Object should also be a TimeAndPlace, not a Region or Object. To avoid unintended errors, this restriction should be encoded as a constraint. NOTE: this relation is close in meaning to that of the OBO_REL relation 'located_in' (http://www.obofoundry.org/ro/#OBO_REL:located_in). In OBO some relations may also be used on Types to create an implicit restriction, but such usage is not part of COSMO, and that usage would need to be represented as a rule. OBO_REL: located_in (see http://www.obofoundry.org/ro/) OBO comments for located_in: Location as a relation between instances: The primitive instance-level relation c located_in r at t reflects the fact that each continuant is at any given time associated with exactly one spatial region, namely its exact location. Following we can use this relation to define a further instance-level location relation - not between a continuant and the region which it exactly occupies, but rather between one continuant and another. c is located in c1, in this sense, whenever the spatial region occupied by c is part_of the spatial region occupied by c1. Note that this relation comprehends both the relation of exact location between one continuant and another which obtains when r and r1 are identical (for example, when a portion of fluid exactly fills a cavity), as well as those sorts of inexact location relations which obtain, for example, between brain and head or between ovum and uterus A general 'overlap' relation for both regions and objects, abstract and physical. In COSMO Objects are distinct from the regions that they occupy, but for the purpose of this relation, the 'overlap' can be viewed as the spatial overlap of the regions occupied by objects, or of that region with some other region. Regions that are in any way adjacent, with no space between other than a point, line, or infinitesimally thick plane, are considered as 'touching' for this relation. This relation is used to express the relation between a Feature of an Object and the Objec tht has that Feature. The Feature can be part of the Object (a protrusion) or a region within the ConvexHull of the Object (e.g. the hole in a doughnut). Such a region overlapsOrTouches the Object it is parasitic upon. In Cyc a similar 'overlaps' relation is labeled 'overlaps-RCC' (for regional Connection Calulus). But that is for regions only, and differs from this COSMO relation. Cyc: (#$overlaps-RCC REG1 REG2) means that REG1 overlaps REG2, i.e., REG1 and REG2 have a common part. The three immediate specialization of #$overlaps-RCC are #$partiallyOverlaps-RCC, #$partOf-RCC and #$partOf-Inverse-RCC. Note that this relation is a #$negationPreds of #$externallyConnectsWith-RCC, compare also with #$discreteFrom-RCC. bf636392-9c29-11b1-9dad-c379636f7270 isaPhysicalPartOf relates physical objects to the larger objects of which they may be parts. This is time-dependent and applies only to instances at a particular time. It is transitive, for any given time point. This is to be interpreted as a proper part, not the whole object. NOTE that this is an instance-level relation. To express the typical part-whole relation of physical object types, use 'isTypicallyaPhysicalPartOf'. isNormallyLocatedAt is a relation that relates individual Objects or Object types to a location where it is typically (more often than not) found, thus specifying where they would 'normally' be located. This is a crude way of encoding defaults and probabilities in locating objects. Perhaps the most useful function of this relation is to specify where parts of things are suppose to be located, when they are in their proper place. The proper location for Body parts or device parts can be specified using this relation. The location can be a Type, or can be a specific location. @ToDo NOTE: this relation is transitive,but probabilities may make this not truly transitive. **potential problem**. Remove transitivity, or restrict chains to short length, or allow transitive but check validity???? The reason one needs a 'typically' relation such as this is that things that have a natural location (e.g. the brain is usually in the head) can be removed from that location, and still be considered as an instance of that type. For example, a brain may be removed from the body during an autopsy, and it is still referred to as the brain of that (dead) person. isTypicallyaPartOf relates types objects to other types of objects, where the one is typically (more often than not) a part of the other. This relation is a type-level relation and can be used for wither physical or abstract objects. For physical objects, the more specific 'isTypicallyaPhysicalPartOf' should be used For abstract objects, this relation can be used to relate parts of things like texts or grammars to the larger structures of which they are typically a part. isTypicallyaPhysicalPartOf relates types of physical objects to other types of physical objects, where the one is typically (more often than not) a part of the other. This relation is a type-level relation and is not time-dependent - though the relation may be invalidated if the definition of a physical object type changes. It expresses a probability, and its transitive closure also expresses a similar probability. Its inverse is 'typicallyHasPhysicalPart' though the probabilities in the two directions are not necessarily the same. NOTE that the domain and range include PhysicalObjects as well as tyoes; this is to allow inheritance of the restriction for instances, but for any assertion with this relatkon or its inverse, the object should be a type, not an instance. 'typicallyHasPhysicalPart' relates types of physical objects to other types of physical objects that are usually found as (or designed to be) a part of the first object. This relation is a type-level relation and is not time-dependent - though the relation may be invalidated of the definition of a physical object type changes. It expresses a probability, and its transitive closure also expresses a similar probability. Its inverse is 'isTypicallyaPhysicalPartOf' though the probabilities in the two directions are not necessarily the same. 'isAnOrganicPartOf' is a subproperty of isTypicallyaPhysicalPartOf, specialized for describing physical parts of Organisms that originate as parts of Organisms or as parts of larger parts of Organisms. This a Finger 'isAnOrganicPartOf' a Hand. This merely describes the usual origin of such objects; the object (e.g. Finger) may be severed from the whole without destroying its identify (e.g. as a Finger) . An AgentiveObject is a PhysicalObject that can cause changes to other objects. This class contains subclasses that have the capacity to act as agents, i.e. to cause changes in the real world; but this general class of agents do not have to have intentions or form plans.. People are the Agents that are typically of greatest interest. But Tornadoes, hurricanes, tsunamis, volcanoes, etc. can behave a agents in that they cause external events due to their internal processes. All of these agentic objects are included in this category, but Organizations, which are classified as MentalObjects in this ontology, are in a separate agentive category. Life Form is very general category of organic objects that can reproduce themselves in a manner resembling the reproduction of animals and plants, and includes intact organisms, viruses, and prions. A part of an organism is not a life form in itself. NOTE that artificial life forms that are not organic (e.g. robots) are not included in this category. NOTE also that 'LifeForm' is not disjoint with 'InanimateThing' though 'Organism' is. This is because some primitive life forms, like some viruses, can occur in crystalline form (while still being viable), and we have categorized crystals as inanimate. The border between living and non-living at the subcellular level is fuzzy, and in COSMO (rev639) we are still trying to find the proper distinctions. 'contrastsWith' relates one attribute to another attribute that has some contrasting quality eith the first, but is not necessarily a semantic 'opposite' For attributes that are opposite, use the subrelation 'isTheOppositeOf'. There is a hub-and-spoke structure to certain core attributes and related attribute, and the notion of 'conrtast' may be more lexical than conceptual. This relation tries to capture the common cases of contrasts. isTheOppositeOf relates one attribute to another attribute that would be commonly considered the opposite of the first attribute. There is a hub-and-spoke structure to certain core attributes and related attribute, and the notion of 'opposite' is in many cases more lexical than conceptual. This relation tries to capture the common cases of opposites. Dry is an attribute of objects and substances that do not lose enough liquid by vaporization on standing in an open space so as to cause a significant change in their properties. This is an Attribute that can be used to reason about the likely stability of an Object or substance on standing in the open.. A quality of substances or objects that have water either interspersed within it or on the surface. This includes as subtypes 'Humid', when the air is noticeably Moist, and 'Wet' having liquid water perceptible on the surface. Corresponds to adjective sense 1 of 'moist' in WordNet: 1. (6) damp, dampish, moist - (slightly wet; "clothes damp with perspiration"; "a moist breeze"; "eyes moist with tears") moist moist1adj A quality of objects that have liquid water perceptible on the surface, and not merely interpersed in cavities in the object, as coul dbe the case when an object is 'Moist'. Corresponds to adjective sense 1 of 'wet' in WordNet: 1. (23) wet - (covered or soaked with a liquid such as water; "a wet bathing suit"; "wet sidewalks"; "wet weather") wet wet wet1adj A DryObject is a SolidObject that does not have a significant content of a liquid that may volatilize so as to significantly change the weight (by more than 10%) or rigidity or functionality after standing in an open space for some time. The category is determined by the moisture contnet considered as such at the time it was created. RigidObjects that have some surface mosture are still DryObjects. This type is created to allow a reasoner to infer some commonsense information about the consequences of aging of an object. The disjoint alternative is 'MoistObject', which includes objects such as animals and some foods, which change substantially when left in a place where the water content can evaporate without replacement. NOTE that this type applies to types that were dry when they were created: an Organism is a MoiopstObject, but when it reaches the stage where it is a dry skeleton, it becomes a physically dry object, but is still an instance of MoistObject. This type represents a property that is relevant to stability, not necessarily representing the physical character throughout a lifetime. A MoistObject is a SolidObject that has a significant content of a liquid that may volatilize so as to significantly change the weight (by more than 10%) or rigidity or functionality after standing in an open space for some time. This criterion is applied in reference to the state of the object at the time it was created. A MoistObject that has dried out may still be an instance of the type MoistObject. This type represents a property that is relevant to stability, not necessarily representing the physical character throughout a lifetime. This type is created to allow a reasoner to infer some commonsense information about the consequences of aging of an object. The disjoint alternative is 'DryObject', which includes all RigidObjects and objects such as sheets of metal or cloth, which are more stable to standing in an open space than a MoistObject would be. Examples of moist objects would be an organism, fresh bread or cake, or . COSMO note: all PhysicalObjects are non-trivially continuous only with respect to some level of granularity. Cyc: A specialization of #$SpatialThing. For every instance REGION of #$SpatiallyContinuousThing, any two points it subsumes are connected by some path it also subsumes. Positive exemplars include a drinking glass, a haystack, a spiderweb, or a region of space in the shape of any of these things. If the glass is broken and its pieces no longer touch each other, it is not a #$SpatiallyContinuousThing. Some borderline exemplars depend on granularity. At a macroscopic level of granularity, a dense cloud of smoke is effectively continuous. On the microscopic level, it is composed of independent particles that do not touch each other. 9ae4ab12-8221-41d7-9022-96b38c86ffc1 In Cyc called 'Organism-Whole'. An Organism must be a whole individual, composed of one or more cells, capable of living independently of other living things (though it may have to feed on other living things, even as a parasite). This cannot be just part of an organism, such as a liver removed and fed in a perfusion apparatus. An organism can be single-celled, like a bacterium. An organism must have a cell membrane that separates the internal cytoplasm from the exterior environment while it is living and metabolizing. Therefore a virus is not an organism, but a different form of life. A seed or spore or other reproductive body that is not metabolically active is not considered as a whole Organism, but as a part or a life stage of an Organism. NOTE carefully that in COSMO v0.2 the category 'Organism' by default is intended to represent typical living adults forms of an organism, but abnormal forms are not actually excluded logically. Therefore though we make certain necessary assertions about an 'Organism' without being concerned about exceptions, the results will be true only in the default case and certain logical contradictiona may occur. This is a temporary measure until a better way of handling default reasoning is implemented. Note, for example, that dead organisms are still categorized as Organisms (this is used mostly for People), even though an Organism is disjoint with 'InanimateThing' - this is to allow the reasoner to catch unintended mistakes of classification. . When exceptional circumstances are encountered, one should use the category 'ImmatureOrganism' or 'AbnormalOrganism'. Rather than reify such categories for each organism type, they can be generated by use of functions on the typical organism Type. If functions are not available in some implementation, reification may be necessary. A more accurate solution would be to leave the organisms as generic, and create a 'typical adult' subtype to hold the values for the prototype. This requires a quasi-duplicate typical type for each organism, which may ultimately be better, but is avoided at the present COSMO stage of version 0.2. Cyc: A specialization of #$BiologicalLivingObject. Each instance of #$Organism-Whole is a biological living object (BLO) that is a whole, and not part of some other BLO. Most instances of #$Organism-Whole are capable of existing and reproducing while physically separate from other organisms (with allowances for eating and mating). Abnormal BLOs which are nonetheless considered to be instances of #$Organism-Whole include instances of #$Virus, as well as sterile hybrids and colony organisms, like those in slime molds or the instances of #$PortugueseManOfWar. A collection of Cells, Tissues, structural parts, or subcellular components, which are localized to a specific area of an Organism (plant, animal, microorganism) and which are not pathological. The instances of this Class range from gross structures to small components of complex Organs, or even subcellular organelles or cellular components. The term 'Body' in the name of this type may be misleading, because it includes parts of microorganisms, which are not usually called 'bodies'. @@ToDo: Create a subtype and change the name? Note that this is a Role, which only means that the part was created or evolved for the purpose of being a part of an organism. When removed from the organism, it is still a BodyPart, but will have different attributes (e.g., not in situ). NOTE that this includes only solid parts containing cells; blood and lymph are not included here, see 'BodyFluid'.. #$InternalAnatomicalPart is a specialization of #$OrganismPart. Each instance of #$InternalAnat5omicalPart is a part of the internal anatomy of an organism. Example subcollections include #$CirculatorySystem and #$MiddleEar. NOTE that this includes only solid parts; blood and lymph are not included here. bdc6db2f-9c29-11b1-9dad-c379636f7270 the type Part is not solely a relation in COSMO, as it is in some ontologies, but a Role category. Of course, there are 'part' relations such as 'isaPhysicalPartOf', but the Type 'Part' serves a separate though related purpose. Artifacts that are created with the purpose of serving as part of a larger artifact will fit under this category, as will parts of organisms that evolved to serve a function in the organism. This is the most general sense of 'part' (also see 'hasPart' and its subproperties). This includes senses 1,2,4,5, 7 and 9 of 'part' in WordNet: 1. (733) part, portion, component part, component - (something determined in relation to something that includes it; 'he wanted to feel a part of something bigger than himself'; 'I read a portion of the manuscript'; 'the smaller component is hard to reach') 2. (159) region, part - (the extended spatial location of something; 'the farming regions of France'; 'religions in all parts of the world'; 'regions of outer space') 4. (123) part, portion - (something less than the whole of a human artifact; 'the rear part of the house'; 'glue the two parts together') 5. (109) part, section, division - (one of the portions into which something is regarded as divided and which together constitute a whole; 'the written part of the exam'; 'the finance section of the company'; 'the BBC's engineering division') 7. (67) part, piece - (a portion of a natural object; 'they analyzed the river into three parts'; 'he needed a piece of granite') 9. (37) share, portion, part, percentage - (assets belonging to or due to or contributed by an individual person or group; 'he wanted his share in cash') WN 'share' 2. (152) share, portion, part, percentage - (assets belonging to or due to or contributed by an individual person or group; 'he wanted his share in cash') 3. (117) parcel, portion, share - (the allotment of some amount by dividing something; 'death gets more than its share of attention from theologians') WN 'component' 2. (10) part, portion, component part, component - (something determined in relation to something that includes it; "he wanted to feel a part of something bigger than himself"; "I read a portion of the manuscript"; "the smaller component is hard to reach") 3. (6) component, constituent, element - (an artifact that is one of the individual parts of which a composite entity is made up; especially a part that can be separated from or attached to a system; "spare components for cars"; "a component or constituent element of a system") part part part1n part2n part4n part5n part7n share share share2n share3n portion portion4n portion3n component component2n component3n piece piece piece1n piece3n 'hasReferenceLocation' relates a RelativeLocation to the reference location to which the RelativeLocation is relative. 'hasReferenceTime' relates a RelativeTime to the reference time to which the RelativeTime is relative. A RelativeLocation is a location that is explicitly relative to something else, which may be a region or an object. All locations are ultimately 'relative' in the sense that they can only be understood by reference to a distance and/or oritentation with respect to some object. However, this Type 'RelativeLocation' is intended to represent those locations that are explicitly relative to something else, in particular objects or regions that are part of some other object or region. A specialization of #$TwoOrHigherDimensionalThing and #$SpaceRegionLimit. This is the collection of all surfaces, tangible or intangible (see #$Surface-Physical and #$Surface-Intangible), of spatial things. Each instance of #$Surface-Generic is a spatial thing that has extent in at least two dimensions, and either has no thickness (i.e. is a purely two-dimensional object) or has an insignificant thickness compared to its length and width. (If it is a closed surface, e.g. an apple skin, then any significant subregion of it must have insignificant thickness compared to that subregion's length and width.) Thus a surface might be two- or three-dimensional; tangible or intangible; spatially connected or not; it might be flat, curved, folded, or crumpled. Other examples of surfaces are the skin of a basketball, the face-up side of a table top, and a particular face of an abstract cube. Other specializations of #$Surface-Generic are #$FlatSurface, #$Surface-Closed, and #$Surface-Open. NOTE: the abstract sense of 'surface' doesn't seem to occur in WordNet. surface A specialization of #$Surface-Generic and #$PartiallyTangible. This is the collection of all physical (and thus technically three-dimensional) surfaces, i.e. tangible surfaces of tangible objects. Each instance of #$Surface-Physical has a (non-zero) thickness that is much less than its average length or width. A physical surface might have holes, tears, or be unconnected and in multiple pieces; it might be flat, curved, or crumpled. Examples include the skin of an apple and the top side of a tabletop. Cf. #$Surface-Intangible. This 'surface' can include part of an object to some depth, such as a surface layer. For the surface portion so thin all parts of it are visible externally, use 'OuterPhysicalSurface' Corresponds to noun sense 2 of 'surface' in WordNet: 2. (39) surface - (the extended two-dimensional outer boundary of a three-dimensional object; 'they skimmed over the surface of the water'; 'a brush small enough to clean every dental surface'; 'the sun has no distinct surface') bd590365-9c29-11b1-9dad-c379636f7270 Any part of the surface of a PhysicalObject, which may include the whole surface (see the subtype 'ExternalSurface-WholeThing'). NOTE that this includes the outer rim of a PhysicalObject that is mostly spread out in two dimensions, such as the wall of a medieval city or of a fort.. The collection of all entire outer physical surfaces of tangible objects. Excludes mere patches or portions of the whole surface of an object. bd589b3e-9c29-11b1-9dad-c379636f7270 Located on the surface of or outside of some object or Group or Organization, e.g. an ExternalOrgan. This includes the more specific sense of being located on the surface of an Object, which is represented by the subtype 'Superficial'. NOTE: an object that is External' to one whole object may be Internal to another object, if the first object is wholly contained inside the limits of a second object. Corresponds to part of adjective sense 1 of 'external' in WordNet: 1. (10) external - (happening or arising or located outside or beyond some limits or especially surface; 'the external auditory canal'; 'external pressures') . external external1adj Located on the surface of some object, e.g. an ExternalOrgan. This is specific for parts of objects or objects attached to other objects in an external position. or for Events that occur on the durface of some Object. Every Object ?O that has the attribute value 'Superficial' will be related to some Object and its surface by the relations: {?O isLocatedAt ?S} where ?S is the surface of some Object. An Event ?E that is 'Superficial' will be related to an object by the relations: {?E occurredAt ?S} where ?S is the surface of some Object. This attribute is for Objects, and metaphorical uses of 'superficial' (as in personalities) need to be disambiguated by a language interpreter from this sense. This sense includes senses adjective 2 and 4 and part of sense 1 of 'superficial', sense 1 and 2 of adjective 'surface', and corresponds to part of sense 1 of 'external' in WordNet. NOTE that most of the examples of sense 1 are metaphorical, but the gloss includes the physical sense: WN 'external' 1. (10) external - (happening or arising or located outside or beyond some limits or especially surface; 'the external auditory canal'; 'external pressures') WN 'superficial' 1. (4) superficial - (being or affecting or concerned with a surface; not deep or penetrating emotionally or intellectually; 'superficial similarities'; 'a superficial mind'; 'his thinking was superficial and fuzzy'; 'superficial knowledge'; 'the superficial report didn't give the true picture'; 'only superficial differences') 2. superficial - (relating to a surface; 'superficial measurements'; 'the superficial area of the wall') 4. skin-deep, superficial, surface - (involving a surface only; 'her beauty is only skin-deep'; 'superficial bruising'; 'a surface wound') WN 'surface': 1. (2) surface - (on the surface; 'surface materials of the moon') 2. (2) skin-deep, superficial, surface - (involving a surface only; 'her beauty is only skin-deep'; 'superficial bruising'; 'a surface wound') external external1adj superficial superficial1adj superficial2adj superficial4adj surface surface1adj surface2adj A specialization of the AttributeValue 'Internal', signifying that the entity characterized is not only not on the surface, but at or near to the center of the containing thing. This is a broad sense, including objects ('inner ear'), processes, and Events, and relating to the internal parts or functions of Objects, Organizations, and Groups ('inner council of the administration') Includes adjective senses 2 and 6 of 'inner' in WordNet: WN 'inner' 2. (5) inner - (located or occurring within or closer to a center; 'an inner room') 6. inner - (inside or closer to the inside of the body; 'the inner ear') WN 'interior' 4. interior - (inside and toward a center; "interior regions of the earth") . interior interior1adj inner inner2adj inner6adj A specialization of the AttributeValue 'External', signifying that the entity characterized is near or at the surface or perimeter of some object or place. 'an outer wall' 'the outer gate' Includes adjective senses 1 and 3 of 'outer' and part of adjective sense 1 of 'exterior' in WordNet; (the notion of 'suitable for' as in 'exterior paint' is not included in this sense - this is a location attribute): 1. (6) outer - (being on the outside or further from a center; 'spent hours adorning the outer man'; 'the outer suburbs') 3. outer - (being on or toward the outside of the body; 'the outer ear') WN adj 'exterior': 1. (2) exterior - (situated in or suitable for the outdoors or outside of a building; 'an exterior scene'; 'exterior grade plywood'; 'exterior paints') . exterior exterior1adj outer outer1adj outer3adj Each 'Interior' is a PhysicalSpaceRegion that is inside of and does not extend to the surface of an Object or larger PhysicalSpaceRegion. COSMO note: this includes animal parts as well as whole animals. For whole animals, use 'Animal'. Cyc: A specialization of #$BiologicalLivingObject that includes all living animals, body parts of living animals, and body regions of living animals. #$AnimalBLO is thus the union (see #$collectionUnion) of #$Animal, #$AnimalBodyPart, and #$AnimalBodyRegion (qq.v.). c0fe0761-9c29-11b1-9dad-c379636f7270 A specialization of #$AnimalBLO. Each instance of #$AnimalBodyRegion is a significant spatial subdivision of the body of some animal, where the subdivision in question is usually contiguous, and has some more or less clear boundary. Instances of this collection include anatomical parts (see the specialization #$AnimalBodyPart) , such as a person's head, beard, or right arm. In addition, this collection includes body regions that are not anatomical parts, such as a blister, a puncture wound, or a bruise. SUMO: AnatomicalStructures that are possessed exclusively by Animals. Also, 'parts' composed solely of liquids, such as the blood of an animal, are not included as regions. bd5adaa1-9c29-11b1-9dad-c379636f7270 The SUMO term for the concept 'AnimalBodyRegion'. #$EukaryoticOrganism is a specialization of #$Organism-Whole. Each instance of #$EukaryoticOrganism is an organism (individual organism, not type of organism) composed of #$EukaryoticCells (cells which have mitochondria, other organelles, and nuclei containing chromosomes). bfc8323a-9c29-11b1-9dad-c379636f7270 A specialization of #$Organism-Whole. Each instance of #$Heterotroph is an organism incapable of manufacturing organic nutrients from inorganic raw materials. All instances of #$Animal are instances of #$Heterotroph, since animals must eat other living things, or parts of living things, in order to get the nutrients they need to live. Other specializations of #$Heterotroph include #$ParasiticOrganism and #$Fungus. Cf. #$Autotroph. bd590331-9c29-11b1-9dad-c379636f7270 hasVitalityAttribute specifies whether an animal is alive, dead, sleeping, awake, unconscious, etc. Attributes other than the 'alive' and 'dead' attributes, do not apply to plants or microorganisms. @ToDo: a specialization of this for animals should be created. An instance of #$ExistingObjectType and a specialization of #$Agent-Generic. Each instance of #$IndividualAgent is an instance of #$Agent-Generic that is not itself a group composed of other instances of #$Agent-Generic. Notable specializations of #$IndividualAgent include #$Person and #$Animal. Note that #$Organization is not a specialization of #$IndividualAgent, since instances of #$Organization are groups composed of other instances of #$Agent-Generic. bd58a562-9c29-11b1-9dad-c379636f7270 The collection of all sentient agents. Instances of #$PerceptualAgent are #$IndividualAgents (q.v.) capable of performing acts of #$Perceiving (q.v.). In many cases information that a perceptual agent gathers through perceiving can influence certain other of the agent's actions. bd58a72d-9c29-11b1-9dad-c379636f7270 COSMO note:for non-human animals, use the subtype 'NonHumanAnimal'. Cyc: An instance of #$BiologicalKingdom, and a specialization of #$Organism-Whole. Instances of #$Animal are typically motile, living, whole organisms; they are instances of #$Heterotroph (q.v.), and thus incapable of performing instances of #$Photosynthesis-Generic. Animal cells contain cholesterol and lack cell walls made of cellulose. #$Person is a specialization of #$Animal; see also #$NonPersonAnimal. Note that not all animals are 'IntentionalAgents', able to form plans of action; as of v0.54, only mammals are characterized as IntentionalAgent - but this may change depending on whether evidence of planning is found in other branches of the Animal kingdom. SUMO: An Organism with eukaryotic Cells, and lacking stiff cell walls and photosynthetic pigments. WordNet includes 'creature' and 'beast' in the generic 'animal. 1. (16) animal, animate being, beast, brute, creature, fauna - (a living organism characterized by voluntary movement) bd58b031-9c29-11b1-9dad-c379636f7270 animal creature creature1n animal animal animal1n creature creature1n A GravitationallyBoundObject is an object that has a mass and density sufficiently large that it will (eventually) settle out from the Earth's atmosphere, in the absent of agitation or shear forces that keep it suspended. This Type is created to provide a more restricted Type of PhysicalObjects that will be the domain and range for relations of 'support' and 'on top of', excluding submicroscopic objects for which such relations make no sense. The subtype 'MacrosopicObject' and its subtypes will be those most commonly used with the 'support' relations. This type of Object need not be solid: portions of a liquid can be supported by surfaces and containers. A is a PhysicalObject that is visible and large enough to be perceived by human beings without the aid of a microscope or other aid to viewing small objects. It could be of any size, but will typically be used for objects no larger than the planet Earth. Larger objects will be 'LargeObject's or 'AstronomicalObject's. A specialization of #$PartiallyTangible. Each instance of #$HumanScaleObject is an object that can be perceived and manipulated by human beings. Instances of this collection range roughly from objects the size of pinheads to objects the size of aircraft carriers. COSMO Note: In Cyc, ConstructionArtifacts were subtypes of HumanScaleObject, but that does not fit the definition of manipulable by humans, so a size limit on HumanScaleObject should be considered as not much larger than an Aircraft Carrier, and stationary construction artifacts (which could be as large as the Alaska Pipeline or the Great Wall of China) will be subtypes of MacroscopicObject, which can be very large. For object scales below this one, the sizes decrease in order as: HumanScaleObject PortableObject SmallObject TinyObject Particle MicroscopicScaleObject SubatomicParticle. A PhysicalObject that is or was a part of some animal. NOTE: this differs from Cyc in that Cyc requires that the part be part of a living animal. Cyc: A specialization of #$AnimalBodyRegion. Each instance of #$AnimalBodyPart is an anatomical part of some living animal, and thus is itself an instance of #$BiologicalLivingObject (q.v). #$AnimalBodyPart includes both highly localized organs (for example, hearts) and physical systems composed of parts distributed throughout an animal's body (such as an animal's circulatory system and nervous system). Note that severed limbs and removed organs are _not_ instances of this collection, since they are not _parts_ of some living animal. NOTE also that body liquids such as blood and lymph are not considered 'AnimalBodyPart' in COSMO, but are categorized as 'BodyFluid'. bd58801c-9c29-11b1-9dad-c379636f7270 COSMO adopts the Cyc usage that an Organ is a localized body part, and the nervous system is not an Organ. Cyc: A specialization of #$AnimalBodyPart. Each instance of #$Organ is a part of an animal that has a specialized physiological function and is more or less localized within the animal. Examples include hearts, kidneys, and tongues. Specializations include #$InternalOrgan and #$ExternalOrgan. Note that, in most contexts, a distributed system like a #$NervousSystem or a (#$SkinOnFn #$WholeBody) is not an #$Organ. SUMO: A somewhat independent BodyPart that performs a specialized function. Note that this functional definition covers bodily systems, e.g. the digestive system or the central nervous system. Corresponds approximately to noun sense 1 of 'organ' in WordNet: 1. (8) organ - (a fully differentiated structural and functional unit in an animal that is specialized for some particular function) c0fde25a-9c29-11b1-9dad-c379636f7270 organ organ1n Located inside of some Object, Group, or Organization e.g. an InternalOrgan; not on the surface or extending to the surface of an Object; not External. This AttributeValue can characterize Objects, Processes, or Events. Every PhysicalObject that is 'Internal' is located at some Interior, i.e., the Internal part of some larger PhysicalObject. Includes adjective senses 1 and 2 of 'internal' in WordNet: 1. (11) internal - (happening or arising or located within some limits or especially surface; 'internal organs'; 'internal mechanism of a toy'; 'internal party maneuvering') 2. (1) internal, intragroup - (occurring within an institution or community; 'intragroup squabbling within the corporation') . internal internal1adj internal2adj COSMO note: the restriction needs modification - @ToDo: should be somevaluesFrom Interior or some type that is a part of an Organism. Cyc: A specialization of #$InternalAnatomicalPart. #$InternalOrgan is the collection of all organs (see the collection #$Organ) that are also instances of #$InternalAnatomicalPart. Specializations of #$InternalOrgan include #$Liver, #$Stomach, #$Heart, and #$Brain. befc0c68-9c29-11b1-9dad-c379636f7270 #$ExternalAnatomicalPart is a specialization of #$OrganismPart. Each instance of #$ExternalAnatomicalPart is a part of the external anatomy of an organism. Example subcollections include #$Earlobe and #$Leaf. bf30473c-9c29-11b1-9dad-c379636f7270 A specialization of #$ExternalAnatomicalPart, and #$AnimalBodyPart, and an instance of #$UniqueAnatomicalPartType: the collection of all heads of #$Animals. See also the more specialized #$Head-Vertebrate. bd58ba60-9c29-11b1-9dad-c379636f7270 A specialization of #$InternalOrgan and instance of #$UniqueAnatomicalPartType. Each instance of #$Brain is an organ that controls most bodily movement, receives sensory input from the body and objects outside the body, and also thinks (insofar as the organism that has the brain can be said to do so). SUMO: The seat of the central nervous system. bd58d3eb-9c29-11b1-9dad-c379636f7270 An important specialization of #$InanimateThing. Each instance of #$ExanimateThing is an individual that is typically regarded as truly inanimate, or non-agentive in the sense that it is utterly incapable of any subjective or mental experience. c0d2c2fb-9c29-11b1-9dad-c379636f7270 COSMO note: in COSMO, a SubatomicParticle is not an instance of this type. This type partly overlaps with 'Particle' - the distinction is not resolved as of v0.54. This should be used for objects down to atom-sized. Cyc: A specialization of #$PartiallyTangible. Each instance of #$MicroscopicScaleObject is a partially tangible object which is so small that human beings cannot perceive it, except (perhaps) with the use of special devices such as #$Microscopes or #$ElectronMicroscopes. Specializations of #$MicroscopicScaleObject include #$Molecule, #$Atom, #$SubAtomicParticle, #$Chloroplast, and #$Mitochondrion. bd5891ac-9c29-11b1-9dad-c379636f7270 A specialization of #$MicroscopicScaleObject. Each instance of #$ChemicalObject is an object whose behavior is typically described in terms of its outer cloud of #$Electrons. Specializations of #$ChemicalObject include the collections #$Atom, #$Molecule, and #$Ion. bd58916a-9c29-11b1-9dad-c379636f7270 A specialization of #$ChemicalObject. Each instance of #$Atom is a microscopic-scale object with exactly one atomic nucleus (see #$AtomicNucleus) and some number of electrons (see #$Electron). A typical instance of #$Atom has no net charge, i.e., it has as many instances of #$Electron as it does of #$Proton. For the collection of atoms that do have non-zero charges, see #$MonoatomicIon. Corresponds to noun sense 1 of 'atom' in WordNet: 1. (51) atom - ((physics and chemistry) the smallest component of an element having the chemical properties of the element) bd5891ef-9c29-11b1-9dad-c379636f7270 One atom of Hydrogen. One atom of Oxygen. A single submicroscopic physical object, being an atom or bonded atom group with an electric charge due to having more or fewer electrons than the total number of protons in the nuclei. Cyc: A collection of microscopic-scale objects; a subset of #$ChemicalObject. Every instance of #$Ion is an atom or radical which has either a negative or positive net electrical charge, due to having either more or fewer electrons than there are protons in its nuclei. Note: atomic ions violate Cyc's default assumption that instances of #$Atom have a net electrical charge of zero, so #$Ion constitutes a class of exceptions to that rule. SUMO: An electronically charged Atom or Molecule. In other words, a PureSubstance that has lost one of its Electrons. c0fbae39-9c29-11b1-9dad-c379636f7270 A specialization of #$Nucleon. Each instance of #$Proton is a nucleon which has an #$ElectricalCharge of +1. NOTE: a Proton can be viewed as a subatomic particle, or as the positive ion of a Hydrogen atom. bd58814d-9c29-11b1-9dad-c379636f7270 A specialization of #$Nucleon. Each instance of #$Neutron is a nucleon with an electrical charge of 0. bd588216-9c29-11b1-9dad-c379636f7270 A specialization of MicroscopicScaleObject, each instance of which is smaller than an atom. The borderline case is a proton, which is the nucleus of a hydrogen atom, but might also be considered as the ion of a hydrogen atom. This subsumes atomic nuclei and subatomic particles, but does not include any atomic ion that contains at least one electron in orbit around the nucleus. A specialization #$MicroscopicScaleObject and #$InanimateObject-Natural. Each instance of #$SubAtomicParticle is a physical particle smaller than the smallest atom. Major subcollections of #$SubAtomicParticle include #$Electron, #$Proton, and #$Neutron. bd58db74-9c29-11b1-9dad-c379636f7270 NOTE that a nucleus is always part of an atom; if accelerated in a form that strips the electrons, either the atom is highly ionized or it is considered as a subatomic particle (not resolved yet). Cyc: A specialization of #$MicroscopicScaleObject. Each instance of #$AtomicNucleus is an object composed of some definite number of instances of #$Proton and some definite number of instances of #$Neutron. Each instance of #$Atom has exactly one instance of #$AtomicNucleus as a part. Corresponds to noun sense 2 of 'nucleus' in WordNet: 2. (5) nucleus - (the positively charged dense center of an atom) bd58a3d9-9c29-11b1-9dad-c379636f7270 nucleus nucleus2n A substance which is a chemical element, for which the unit is an atom; each atom of a ChemicalElement has the same number of protons in its nucleus. In Cyc called 'ElementStuff'. @ToDo: The restriction specifying that every ChemicalElement hasUnitObject Atom is not exactly in the form that would allow it to be satisfied by asserting that specific elements have specific atoms as unit objects. This needs to be changed when a more precise restriction can be created in an FOL version. This could be done by creating an 'AtomType' as the range for the relation when used on elements Cyc: An instance of #$TangibleStuffCompositionType and a specialization of #$InanimateThing. Each instance of #$ElementStuff is a piece of tangible stuff, composed of a quantity of atoms, all of which are of the same chemical element. That is, every atom in a given piece of #$ElementStuff has the same number of protons in its atomic nucleus. For example, all pieces of carbon (i.e. all instances of #$Carbon) are instances of #$ElementStuff. On the other hand, instances of #$Water, because they are all constituted of both #$Hydrogen and #$Oxygen atoms, do not belong to the collection #$ElementStuff. Corresponds to noun sense 2 of 'element' and sense 1 of 'chemical element' in WordNet: 2. (33) chemical element, element - (any of the more than 100 known substances (of which 92 occur naturally) that cannot be separated into simpler substances and that singly or in combination constitute all matter) bd5908b9-9c29-11b1-9dad-c379636f7270 element element2n chemical element chemical element1n hasUnitObject relates a PhysicalSubstance to the PhysicalObjects that are the characteristic objects that constitute the substance. For example, a ChemicalElement hasUnitObject Atom. consistsOfMany relates a granular material consisting of multiple individual objects of the same type (e.g. sand), considered as a Substance, to the individual objects. This is similar to and a subproperty of 'hasUnitObject', but is restricted to granular materials, whereas the parent 'hasUnitObject' can be used to treat large quantities of any object as a substance. An Isotope is a ChemicalElement with a single fixed number of neutrons in each atom. Thus we might have Carbon12 as an subtype of Carbon, and as a subtype of 'Isotope'. The term 'isotope' is sometimes used to refer to an 'Isotope' with an atomic mass different from the dominant natural atomic mass (a minority or non-natural isotope); or the use of 'isotopes' in the plural suggests that different isotopes of the same element are under discussion. The COSMO sense is not exactly like either of those senses. The 'non-natural' sense could be a subtype of this sense, but is left for a domain ontology. @ToDo: We need a restriction that all atoms have the same atomic mass - may need FOL for that. This definition differs from that of Cyc; Cyc requires that each isotope have a 'different' mass - but even for elements that have only one natural isotope, that natural isotope is still an 'Isotope' in COSMO - the only criterion for an Isotope is that all atoms of an Isotope have the *same* atomic mass. Thus Carbon12 and Carbon14 are both 'Isotopes' in COSMO. Cyc: #$Isotopes are substances with the same atomic number as the element for which they are isotopes of (see #$isotopeOf), but with a different atomic mass due to a different number of neutrons. This corresponds to the only sense of 'isotope' in RHW: RHW: any of two or more forms of a chemical element, having the same number of protons in the nucleus, or the same atomic number, but having different numbers of neutrons in the nucleus, or different atomic weights. There are 275 isotopes of the 81 stable elements, in addition to over 800 radioactive isotopes, and every element has known isotopic forms. Isotopes of a single element possess almost identical properties. Corresponds approximately to noun sense 1 of 'isotope' in WordNet; however an Isotope is not an Atom, it consists of Atoms: 1. isotope - (one of two or more atoms with the same atomic number but with different numbers of neutrons) a0a73e1e-f1e1-41d6-810c-dbd250443206 isotope isotope1n hasProtonCount relates a chemical element to the number of protons in each atomic nucleus of that element. This is very specifically a chemistry/physics concept. NOTE that the domain is ElementType because elements are represented as types (classes), not instances. This representation permits element isotopes to be subtypes of each element. The element with six protons in each nucleus. Corresponds to noun sense 1 of 'carbon' in WordNet: 1. (10) carbon, C, atomic number 6 - (an abundant nonmetallic tetravalent element occurring in three allotropic forms: amorphous carbon and graphite and diamond; occurs in all organic compounds) 6 carbon carbon1n The element with eight protons in each nucleus. Corresponds to noun sense 1 of 'oxygen' in WordNet: 1. (56) oxygen, O, atomic number 8 - (a nonmetallic bivalent element that is normally a colorless odorless tasteless nonflammable diatomic gas; constitutes 21 percent of the atmosphere by volume; the most abundant element in the earth's crust) 8 oxygen oxygen1n A Gas or a LiquidSubstance. Includes noun senses 1 and 2 of 'fluid' in WordNet: 1. (26) fluid - (a substance that is fluid at room temperature and pressure) 2. (8) fluid - (a continuous amorphous substance that tends to flow and to conform to the outline of its container: a liquid or a gas) fluid fluid1n fluid2n Each subclass of LiquidSubstance labels a PhysicalSubstance which is liquid at normal temperatures and pressures. This category has been set as identical to the Cyc 'Liquid-StateOfMatter', though the original Cyc category is a physical object. This redefinition was done as part of the disentanglement of Cyc substances and objects. The Cyc category definition does not apply to this Type,and is closer to the COSMO 'LiquidObject'. The Cyc category was reinterpreted as a substance because it was used in Cyc predominantly as a parent class for what in COSMO are considered as substances. Water, gasoline, and vodka are examples. Although most substances are classified mainly by their composition, and may be solids or liquids (and sometimes gases) depending on temperature, there are some categories of substances that are conceptually in one state; ice is an example - it must be solid. A 'BathOil' must be a liquid. A LiquidSubstance is a PhysicalSubstance that must be liquid, at normal temperature and pressure. Any PhysicalSubstance in the Gaseous form, at room temperature and atmospheric pressure. A quantity of gas does not have a defined volume, but will expand to become uniformly distributed throughout its container. NOTE that a substance that happens to be gaseous at some elevated temperature is **not** necessarily a subtype of 'Gas'; likewise, a quantity of cooled or compressed gas that has become liquid due to cooling or compression can still be composed of a subtype of 'Gas' - for example Liquified Natural Gas. To classify a quantity of matter that is in the gaseous form, use 'GaseousObject'. This is equivalent to saying that it has the property of being 'gaseous' - but that property is not yet (v 0.45) defined in COSMO. At low enough temperature, all substances condense to a liquid or solid. COSMO note: DOLCE distinguishes Events that have temporal parts with similar character, i.e. the same sort of thing occurs throughout the tie interval of the Event. In OpenCyc, such 'homogeneous' events are represented using 'StuffType' metaclasses. A special subclass is the 'State' where nothing happens over some time interval. 'State' is an important concept in PSL and situation calculus. DOLCE: An occurrence-type is stative or eventive according to whether it holds of the mereological sum of two of its instances, i.e. if it is cumulative or not. A sitting occurrence is stative since the sum of two sittings is still a sitting occurrence. A PersistentState is an Event in which all relevant attributes or relations (any one or more 'fluents' in PSL) remains constant over some time interval. A special limiting subtype would be an InstantaneousState, for which the time interval is of zero duration. A PersitentState can be represented even though some attributes of a system may be changing, if the knowledge enterer chooses to focus only on those attirubtes that are not changing, and does not represent the attributes that are changing. For example, a person can be represented as being in a sitting state even though s/he may be doing many things in that interval of time. An agent can be doing things during a PersistentState, as long as the relevant attribute that characterizes the state remains during all parts of the state, within some level of granularity. NOTE That if an Object is specified as having some Attribute during some interval of time, that is equivalent to specifying the existence of a PersistentState for that Object during that interval. NOTE also that representing a PersistentState in which some attribute(s) remain constant over some interval of time does *not* imply that there are no attributes that change. A person sitting in a chair can be represented as a persistent state of sitting, while at the same time many internal biological proceses may be going on. The meaning a a PersistentState, as well as for Events generally, only extends to those attributes (or fluents) that are explicitly represented in (or logically inferred from) the represented description of the Event/PersistentState. COSMO note: linguistically, the existence of a PersistentState may be expressed by asserting a 'state', 'condition' or 'situation', or by using a verb or an adjective. One can say "the airplane was flying for three hours"; 'the balloon stayed in the air several days'; 'Tom remained sitting during the party'; 'his face was red for five minutes'; 'He was angry for a week'; 'the motor ran continuously for a week'. COSMO note: DOLCE has a convoluted description of what a 'State' is. For COSMO, a PersistentState (what appears to be a 'State' in DOLCE) it is very simply an Event in which none of the represented attributes change over some interval of time - - i.e. nothing changes that the knowledge enterer considers significant for her/his purposes. This can be viewed as the limiting case of an Event, in which so little of significance happens that it is not worth mentioning. Or, it can be simply the representation of certain attributes of a system that are not changing, while ignoring other attributes that may be changing. DOLCE: Within stative occurrences, we distinguish between states and processes according to homeomericity: sitting is classified as a state but running is classified as a process, since there are (very short) temporal parts of a running that are not themselves runnings.In general, states differ from situations because they are not assumed to have a description from which they depend. They can be sequenced by some course, but they do not require a description as a unifying criterion.On the other hand, at any time, one can conceive a description that asserts the constraints by which a state of a certian type is such, and in this case, it becomes a situation.Since the decision of designing an explicit description that unifies a perdurant depends on context, task, interest, application, etc., when aligning an ontology to DLP, there can be indecision on where to align a state-oriented class. For example, in the WordNet alignment, we have decided to put only some physical states under 'state', e.g. 'turgor', in order to stress the social orientedness of DLP. But whereas we need to talk explicitly of the criteria by which we conceive turgor states, these will be put under 'situation'.Similar considerations are made for the other types of perdurants in DOLCE.A different notion of event (dealing with change) is currently investigated for further developments: being 'achievement', 'accomplishment', 'state', 'event', etc. can be also considered 'aspects' of processes or of parts of them. For example, the same process 'rock erosion in the Sinni valley' can be conceptualized as an accomplishment (what has brought the current state that e.g. we are trying to explain), as an achievement (the erosion process as the result of a previous accomplishment), as a state (if we collapse the time interval of the erosion into a time point), or as an event (what has changed our focus from a state to another).In the erosion case, we could have good motivations to shift from one aspect to another: a) causation focus, b) effectual focus, c) condensation d) transition (causality). If we want to consider all the aspects of a process together, we need to postulate a unifying descriptive set of criteria (i.e. a 'description'), according to which that process is circumstantiated in a 'situation'. The different aspects will arise as a parts of a same situation. Corresponds to noun sense 4 of 'state', and part of verb sense 1 of 'stay' and senses 1 and 2 of 'remain', in WordNet and includes verb sense 2 of 'stay' which is more specifically represented by the COSMO subtype 'RemainingInaLocation': 4. (142) state - (the way something is with respect to its main attributes; 'the current state of knowledge'; 'his state of health'; 'in a weak financial state') WN noun 'stay' : 1. (415) stay - (continuing or remaining in a place or state; 'they had a nice stay in Paris'; 'a lengthy hospital stay'; 'a four-month stay in bankruptcy court') WN verb 'stay': 1. (43) stay, remain, rest - (stay the same; remain in a certain state; 'The dress remained wet after repeated attempts to dry it'; 'rest assured'; 'stay alone'; 'He remained unmoved by her tears'; 'The bad weather continued for another week') 2. (32) stay, stick, stick around, stay put - (stay put (in a certain place); 'We are staying in Detroit; we are not moving to Cincinnati'; 'Stay put in the corner here!'; 'Stick around and you will learn something!') state state state4n stay stay stay1n stay1v stay2v remain remain1v remain2v A specialization of #$Situation-Localized. Each instance of #$PhysicalSituation is a spatially localized situation involving one or more physical objects or stuffs (see #$situationConstituents). Important specializations include #$PhysicalEvent and #$AilmentCondition. 7bdc4888-8636-41d7-894d-9e94e3976266 The collection of all temporal situations in which two or more tangible objects are touching (see #$touches) for at least part of the situation's duration. This includes an object's rubbing against another, objects colliding, as well as static touching configurations. Note that, although most types of #$PhysicalEvents involve some kind of touching, only those types for which contact is salient should be subcollections of #$PhysicalContactSituation. bfffa642-9c29-11b1-9dad-c379636f7270 This is the most general sense of some physical object or part of a PhysicalObject changing its location or orientation in any way. Turning in place (rotation), vibration, oscillation, moving in circles, as well as complete change of location of an object is included. Called 'MovementEvent' in Opencyc, 'Motion' in SUMO. OpenCyc: A specialization of #$GeneralizedTransfer and #$MovementOrShapeChangeEvent (qq.v.). This is the most general collection of physical movements. Each instance of #$MovementEvent is an event in which at least one object (see #$objectMoving) either translates some distance or moves from one rotational orientation to another, relative to a frame of reference that is not part of the translating/rotating object. The movement in question might be periodic or not, continuous or not. Notable specializations of #$MovementEvent include #$Translocation, #$Movement-Rotation, #$Movement-Periodic, and #$MovementProcess. SUMO: Any Process of movement. Corresponds to verb sense 1 of 'go' and sense 1 and 3 of 'move', and includes noun senses 3 and 4 of 'move' and nouns senses 1,2,3, and 6 of 'motion' in WordNet: WN verb 'move' 1. (343) travel, go, move, locomote - (change location; move, travel, or proceed; 'How fast does your new car go?'; 'We travelled from Rome to Naples by bus'; 'The policemen went from door to door looking for the suspect'; 'The soldiers moved towards the city in an attempt to take it before night fell'). 3. (52) move -- (move so as to change position, perform a nontranslational motion; "He moved his hand slightly to the right") WN noun 'move': 3. (57) motion, movement, move, motility - (a change of position that does not entail a change of location; 'the reflex motion of his eyebrows revealed his surprise'; 'movement is a sign of life'; 'an impatient move of his hand'; 'gastrointestinal motility') 4. (30) motion, movement, move - (the act of changing location from one place to another; 'police controlled the motion of the crowd'; 'the movement of people from the farms to the cities'; 'his move put him directly in my path') WN noun 'motion': 1. (22) movement, motion - (a natural event that involves a change in the position or location of something) 2. (8) gesture, motion - (the use of movements (especially of the hands) to communicate familiar or prearranged signals) 3. (6) motion, movement, move, motility - (a change of position that does not entail a change of location; 'the reflex motion of his eyebrows revealed his surprise'; 'movement is a sign of life'; 'an impatient move of his hand'; 'gastrointestinal motility') 6. (1) motion, movement, move - (the act of changing location from one place to another; 'police controlled the motion of the crowd'; 'the movement of people from the farms to the cities'; 'his move put him directly in my path') bd590401-9c29-11b1-9dad-c379636f7270 go go go1v move move move1v move3v motion move3n move4n motion1n motion2n motion3n motion4n The Cyc term for the Event in which Motion occurs.. COSMO note: this is for complete changes of location; for the more geenral sense of 'motion' or changes of orientation, or changes of location of a part of an object (e.g. moving one's hand), use the more general 'Motion'. SUMO: Translocation is that class of Motions in which an object moves from one place to another. In the case of round trips, the origin and destination are the same, but the intervening motion passes through other locations. Translocation represents linear motion, in contrast to rotation or other movement in place. A vehicle is not necessary; Ambulating is a kind of Translocation. Cyc comment: A subcollection of #$MovementEvent. Each instance of #$Translocation is a movement across a distance; thus there is both a location that it is a movement from (see #$fromLocation) and a location that it is a movement to (see #$toLocation). (These two locations might or might not be distinct, considering round-trips.) Note that instances of #$Translocation might or might not involve a salient moving object (see #$objectMoving); for those that do see the specialization #$Movement-TranslationEvent; for some that don't see #$WavePropagation. @ToDo the relation of this Event to 'DistanceTravelled' Corresponds to noun sense 6 of 'motion' , noun sense 4 of 'move' and verb sense 1 of 'move' in WordNet: WN 'motion' 6. (1) motion, movement, move - (the act of changing location from one place to another; 'police controlled the motion of the crowd'; 'the movement of people from the farms to the cities'; 'his move put him directly in my path') WN noun 'move': 4. (30) motion, movement, move - (the act of changing location from one place to another; 'police controlled the motion of the crowd'; 'the movement of people from the farms to the cities'; 'his move put him directly in my path') WN verb 'move' 1. (343) travel, go, move, locomote - (change location; move, travel, or proceed; 'How fast does your new car go?'; 'We travelled from Rome to Naples by bus'; 'The policemen went from door to door looking for the suspect'; 'The soldiers moved towards the city in an attempt to take it before night fell'). bf81a890-9c29-11b1-9dad-c379636f7270 move motion motion6n move move4n move1v A specialization of #$Translocation. Each instance of #$Movement-TranslationEvent is an event in which an object (an instance of #$SomethingExisting) moves some distance (so that at some point in the event, the object's center of mass changes location with respect to the relevant frame of reference). The moving object need not move completely out of its original spatial extent; for example, a building moving one foot to the left undergoes a #$Movement-TranslationEvent. Instances of #$Movement-TranslationEvent include events in which the movement ends in the same place it started from (e.g. one lap of a race car around the Indianapolis race track, or a trip to the grocery store and back). In such cases (all of which are instances of the specialization #$Translation-NoLocationChange), the to and from locations of the movement (see the predicates #$toLocation and #$fromLocation) are identical. In other cases of #$Movement-TranslationEvent (e.g. the movement of the baseball during a home run hit by Roger Maris), the to and from locations are different; in these cases, the movement events are also instances of #$Translation-LocationChange (q.v.). @ToDo the relation of this Event to 'DistanceTravelled' bd588e70-9c29-11b1-9dad-c379636f7270 A collection of processes. In instances of #$TranslationAlongASurface an #$objectMoving is moving along a #$motionPathway-Complete in contact with a liquid or solid surface. The #$objectMoving crosses [see #$trajectoryPassesThrough] the #$Perimeter of any #$toLocation or #$fromLocation that is a #$Surface-Open. bdd346cd-9c29-11b1-9dad-c379636f7270 The collection of all locomotion events in which the locomotor moves along, and is supported by, a #$SolidTangibleThing. Includes walking, slithering, somersaulting, etc. c08d344c-9c29-11b1-9dad-c379636f7270 'Ordered' is an AttributeValue of Groups that have some kind of ordering. More specific orderings will be subtypes of this AttributeValue, such as 'LinearlyOrdered' 'Ordered' is an AttributeValue of Groups that have some kind of ordering. More specific orderings will be subtypes of this Attributealue, such as 'LinearlyOrdered' An OrderedGroup is a Group that has some ordering relation between component elements. It usually has more than one component element, but to allow generalization of certain concepts such as an ActionSeries, an OrderedGroup is allowed to have as few as one component element. The ordering may be of any kind: a simple linear order, or a complex multi-dimensional pattern. The most common kind of OrderedGroup is one that is linearly ordered, and each such Group is an instance of the subtype 'LinearlyOrderedGroup'. An OrderedGroup may be physical, whereas a List is an AbstractInformationStore. Therefore not all OrderedGroups are Lists. One may define an OrderedGroup that is a List, if one is careful that the OrderedGroup is also an AbstractInformationStore. hasFirstElement is a specialization of the relation 'hasComponentElement' applying to OrderedGroups or Lists, specifying the first component element of the OrderedGroup or List. hasSecondElement is a specialization of the relation 'hasComponentElement' applying to OrderedGroups, specifying the Second component element of an OrderedGroup. hasThirdElement is a specialization of the relation 'hasComponentElement' applying to OrderedGroups, specifying the Third component element of an OrderedGroup. A LinearlyOrderedGroup is a Group that has a linear ordering, which is a mapping from the natural numbers to elements of the Group. It will usually have more than one element, but may have only one. COSMO note: we make a series a subtype of LinearlyOrderedGroup: specifically, the ordering relation is that the component elements are arranged in a linear fashion. It can be concrete or abstract. A series will typically have more than one component element, but to allow broader generalization, it may have only one element. Cyc: A specialization of #$Group (q.v.). Each instance of #$Series is a complex temporal thing in which two or more other things are ordered in a linear fashion. Examples include a line of people at a ticket booth (an instance of the specialization #$PhysicalSeries) and a series of pitches in a baseball game (an instance of the specialization #$EventSeries). In each instance of #$Series, there is some relation by which its members are ordered (see the related predicate #$seriesOrderedBy); this relation often varies from series to series. be8e694c-9c29-11b1-9dad-c379636f7270 An 'ActionSeries' is an Action that is composed of a Series (a LinearlyOrderedGroup) of Actions. The ordering of the Actions in the series corresponds to the time-sequence of the Acdttions in the ActionSeries. A Group consisting exclusively of Agents, which may be individuals (people), or Organizations, or GroupsOfPeople. The most common AgentGroups will be groups of people, but there are also groups of Organizations (The United Nations, a Chamber of Commerce) and groups that are of mixed types (a company's customers may be individuals and organizations). 'Plural' as an attribute of a Group that has more than one member,i.e. a PluralThing; and also an attribute of Nouns that are in the grammatically plural form. This includes to both adjective senses of 'plural' in WordNet: 1. plural - (composed of more than one member, set, or kind) 2. plural - (grammatical number category referring to two or more items or units) plural plural plural1adj plural2adj 2 Every PluralThing is a Group consisting of at least two or more entities, considered as one entity, and is related to the component entities by the relation 'hasComponentElement' The name of subtypes of 'PluralThing' in COSMO may take the form of a plural of a count noun. But plurals of count nouns are also used to name 'CommodityProducts', so that usage is not a reliable indicator that a term represents a PluralThing. A 'PluralThing' is an Object, and a 'CommodityProduct' is a substance, so the two are disjoint concepts, in spite of the close relation. The 'CommodityProduct' should only be used in the substance sense, and PluralThing for those things who individual members are the focus of representation. NOTE: in COSMO, Group is restricted to groupings of at least one entity, as in OpenCyc. In this manner PluralThing stays closer to the linguistic intuition of a plural. A more generic Group that is not a TemporalThing could be defined, but is left out at this point. NOTE: BFO has the notion of an 'ObjectAggregate' which is similar to a 'PluralThing'; but in BFO the requirements are more stringent than for COSMO 'Group', since a COSMO 'Group' can be composed of arbitarily defined components, whereas in BFO each 'Object' of the aggregate must be an object with perceptible boundaries. Since BFO 'Object' is disjoint from 'fiat object part' and from ObjectAggregate, we need to make 'ObjectAggregate' a subtype of 'PluralThing', and to specify that each component of an 'ObjectAggregate' is a 'WholeObject'. Each GroupOfAnimals is Group, each component element of which is an Animal (including people. For a group of non-human animals,use 'GroupOfBeasts'). There must be more than one animal in this kind of Group. This includes GroupOfPeople as a subtype. hadMainParticipant relates an Event to the Object whose properties and relations ('fluents') are the primary things begin represented by the specific type of Event. This relation is used for Events for which a single participant is the dominant theme. The MainParticipant will usually be the subject in an assertion in the active voice, even if it is not an Agent. For things that are acted on, use 'hadAffectedObject'. A specialization of #$Situation. Each instance of #$SystemCondition is a state or process undergone by some natural or artificial system (for example, an organism or a computer network). The state or process in question may be either normal or abnormal. A typical instance of #$SystemCondition is a state or process that has important temporal aspects, or affects the system's condition for a significant period of time, such that the condition may be thought of as an 'episode' in the existence of the system, or even a permanent aspect of the system. COSMO note: this Cyc category is interpreted as a PersistentState (a subtype of Event), meaning that the situation stays constant over some period of time. If the condition is some process (rotating), then the process should be constant over that interval, e.g. the rate of turn should be constant, within the limits of interest to the ontologist. c1346159-9c29-11b1-9dad-c379636f7270 COSMO note: in COSMO we do not specifically require that a PhysiologicalCOndition be 'abnormal', as is suggested by the Cyc documentation. This category in COSMO is used solely to refer to any state of an organism. This is subject to review. Cyc: A specialization of #$SystemCondition. Each instance of #$PhysiologicalCondition involves an #$Organism-Whole being in some physiological state that is not typical for that organism's species, modulo considerations about the organism's sex or (in some cases) subspecies. Thus #$Menstruating, though not typical among all persons, is part of being a healthy adult female, and so is not a specialization of #$PhysiologicalCondition (though it is a type of #$PhysiologicalProcess); #$Pregnancy, on the other hand, is a specialization of #$PhysiologicalCondition. Note that some but not all #$PhysiologicalConditions are events; but they are all #$Situations. Thus each physiological condition has a temporal start and end, though in some cases (e.g. dwarfism) these will be the same as the start and end of the life of the organism. c10c3859-9c29-11b1-9dad-c379636f7270 wasPerformedByAgent points from an Action to the Agent(s) that performed that Action. It is in the past tense, as Events in COSMO are considered as bounded in time, and must be in the past after the end point. There may be more than one Agent related by this relation, and the relation may point to a Group of agents. NOTE that a party to a conflict, such as a company struck by a LaborUnion, may be a passive or unwilling participant in teh Action. @ToDo: As of rev885, it is not necessary that all parties to a conflict be included in the value of this relation. This 'perform' relation includes the 'experiencer' case role for mental events. The inverse of 'wasPerformedByAgent' - relates an agent (or agents) to the action in which s/he was principle agent. COSMO note: the kind of thing performing an AnimalActivity can also be an Organization - the implication being that it was performed by some person in the Organization. Cyc: A specialization of #$Action. Each instance of #$AnimalActivity is a spatially-localized action, each of whose doers (see #$doneBy) is either an #$Animal or a group of animals (i.e. a #$Group all of whose members are #$Animals). bd588daa-9c29-11b1-9dad-c379636f7270 A specialization of Event specific to Cyc: Cyc: A specialization of #$PhysicalEvent whose instances include translational or rotational movements of whole objects (see #$MovementEvent), objects changing shape (see #$ShapeChangeEvent), as well as events in which salient parts of an object move or change shape in relation to the reference frame of the whole object. For example, although a ticking grandfather clock is not normally undergoing either a #$MovementEvent or a #$ShapeChangeEvent, it can still be said to be moving - and thus undergoing a #$MovementOrShapeChangeEvent - in virtue of the fact that a salient part of the clock, the pendulum, is swinging. (Of course, the pendulum itself is periodically undergoing #$Movement-Rotation, and the tip of the pendulum is undergoing a #$Movement-TranslationEvent.) As a negative example, a catatonic person should not be thought of as undergoing any #$MovementOrShapeChangeEvent. Although blood moves through such a person's veins, her lungs expand and contract, and so on, these things would not normally be considered salient enough to entail that the person herself was undergoing a movement or shape change event. be32a8af-9c29-11b1-9dad-c379636f7270 A specialization of #$Action. Each instance of #$SingleDoerAction is an action which can have only one doer (see the predicate #$doneBy). Such actions may be intentional, but they need not be. Most bodily functions (e.g., the instances of #$Heartbeating or #$Bleeding-TheAction) belong to specializations of #$SingleDoerAction, because the only doer of a normal bodily function is the body of a single agent. In order for a type of action (i.e., a specialization of #$Action) to be a specialization of #$SingleDoerAction, it must be inconsistent to assert, for any instance ACT; of that type of action, both (#$doneBy ACT; X;) and (#$doneBy ACT; Y;), where X; and Y; are different. Notable specializations of #$SingleDoerAction include #$Sleeping, #$Dying, #$AnimalWalkingProcess, and #$WritingByHand. c0fd4844-9c29-11b1-9dad-c379636f7270 A specialization of #$AnimalActivity. Each instance of #$BodyMovementEvent is an event in which an #$Animal moves a part of its own body, whether intentionally or reflexively. Specializations of this collection include #$TakingAStep, #$BlockingAPunch, #$Hiccoughing, and #$Blinking. SUMO: called BodyMotion. SUMO: Any Motion where the agent is an Organism and the patient is a BodyPart. COSMO note: SUMO does not distinguish between voluntary and involuntary body movements, though the subtypes are all voluntary. To be inclusive, this Type is considered the equivalent of SUMO 'BodyMotion'. bd58f6e3-9c29-11b1-9dad-c379636f7270 COSMO note: taking one step can be performed by any animal with legs, including millpedes. Each TakingAStep can be forward or backward, very slow, normal pace, or fast as in running. Cyc: The act of raising a foot, moving it forwards (backwards in some cases) and placing it down again. bd589806-9c29-11b1-9dad-c379636f7270 footstep footstep footstep2n A collection of translational motion events; hence a subcollection of #$Movement-TranslationEvent. In each instance of #$Translation-Complete, the entire moving object (see #$objectMoving) moves from the place of origin (see #$fromLocation) to the destination (see #$toLocation). That is, the object completely leaves the origin and relocates to the destination. The moving object may be either a #$NonFluidlike object (e.g. a baseball) or a #$FluidTangibleThing all of which moves from one place to another (e.g. the gasoline used to fill a gas tank). Another example: a single molecule of water flowing from point A to point B in a river. Non-examples: a river flowing from A to B (the river itself is not relocated); a rubber band stretching. A borderline case: a spider spins a web, leaving part of itself, in effect, extended out behind it; in most contexts that would still be considered a #$Translation-Complete. Note that #$Translation-Complete is noncommittal as to whether net movement has occurred, so round-trip events qualify as complete translations (cf. #$Translation-LocationChange). bd61f7aa-9c29-11b1-9dad-c379636f7270 A specialization of #$Movement-TranslationEvent. Each instance of #$Translation-SingleTrajectory is a translational movement that involves exactly one #$trajectory-Complete. One or more items might have the role of #$objectMoving in such an event. Note that although there is a single #$trajectory-Complete, it does not follow that there is a unique place in the role of #$fromLocation or #$toLocation because that depends on our descriptions of these locations. (E.g. the same single-trajectory movement can be described as from Texas to Pennsylvania, from Austin to Pittsburgh, or from northwest Austin to south Pittsburgh.) However, the single #$trajectory-Complete connects one from-location and one to-location. (Similarly, there may be a single existing #$motionPathway-Complete that the trajectory goes along, or a single #$Traversal of paths indicated by #$traverses-Complete.) Note that a translational motion performed by a whole #$Group is likely to be a #$Translation-SingleTrajectory; e.g. a flock of birds flying together or a snarl of rush-hour traffic on the Beltway. Non-examples include an opening break in a game of billiards and a group of water droplets coming together into one big drop. Contrast with #$Translation-MultiTrajectory. bd5b0dc8-9c29-11b1-9dad-c379636f7270 This is the collection of movement events in which the #$primaryObjectMoving is moving under its own control, and usually under its own power. This entails that the moving object is an agent. Most animals, many bacteria, and some robots are capable of #$LocomotionEvents; inanimate objects and plants are not. c0b3e401-9c29-11b1-9dad-c379636f7270 The collection of processes in which a #$providerOfMotiveForce moves from one place to another under, or as if under, its own control. This includes not only animals moving around autonomously (c.f. #$LocomotionProcess-Animal), but also locomoting devices such as cars, submarines, and airplanes, which are controlled either internally or remotely by distinct #$Agents, but share significant properties with locomoting #$Animals - notably that their trajectories are not just functions of forces such as gravity and resistance, but rather can have abrupt changes of direction or speed that are or appear purposeful. This collection also explicitly includes locomoting events in which the #$providerOfMotiveForce is a non-agent natural force such as gravity, so long as the object moving is or appears to be in control of its trajectory of motion. Thus someone downhill skiing or hang-gliding would be a positive example. bea637c7-9c29-11b1-9dad-c379636f7270 A specialization of #$LocomotionEvent, #$AnimalActivity, #$SingleDoerAction, and #$PurposefulAction. In each instance of #$LocomotionEvent-Animal, the object moving (see #$objectMoving) is an instance of #$Animal. Notable specializations of #$LocomotionEvent-Animal include #$Climbing, #$Swimming-Generic, and #$WalkingOnTwoLegs. Other specializations include types of events, such as single-person canoeing and #$Skating, in which a person moves himself or herself using a device to which s/he supplies the motive force. Note that instances of locomotion of several animals working together; e.g., tandam bicycling, a crew team rowing a boat, running a three-legged race; are not instances of this collection. bd58e64e-9c29-11b1-9dad-c379636f7270 COSMO note: Ambulation is an ActionSeries in which the individual actions are taking one step with one or more legs. Eachstep may consist of a single footstep while walking or running, or a hop in the case of Hopping. Cyc: A specialization of #$Locomotion-SolidSurface: the collection of all locomotion events on solid surfaces in which an #$Animal moves by lifting its feet, moving them through the air, and setting them down in a new location. Includes walking (cf. 'Walking'), #$Running, skipping, trotting, etc. NOTE: called 'Ambulating' in SUMO. SUMO: Any BodyMotion which is accomplished by means of the legs of an Animal for the purpose of moving from one point to another. bdd4cc3a-9c29-11b1-9dad-c379636f7270 The SUMO term for 'Ambulation'. hasCapability relates an Agent or Object to some type of Action that the Agent or Object has the ability to perform or serve as instrument in. Linguistically this relation is expressed by phrases such as 'is able to' or 'can' or 'is capable of' or 'has the ability to' (see also attribute 'Ability' and 'Capability') Corresponds to adjective senses 1,2, and 3 of 'able' in WordNet: 1. (70) able - - ((usually followed by 'to') having the necessary means or skill or know-how or authority to do something; "able to swim"; "she was able to program her computer"; "we were at last able to buy a car"; "able to get a grant for the project") 2. (7) able, capable - - (have the skills and qualifications to do things well; "able teachers"; "a capable administrator"; "children as young as 14 can be extremely capable and dependable") 3. (4) able - - (having inherent physical or mental ability or capacity; "able to learn"; "human beings are able to walk on two feet"; "Superman is able to leap tall buildings") able able1adj able2adj able3adj A Feature is an Object or Region within the ConvexHull of an Object. The Object may be abstract. A PhysicalFeature is either a part of a PhysicalObject, or some hole, cavity, or path through an object that has some spatial shape and can reasonably be referred to as something having some kind of identity. It is parasitic on the PhysicalObject that gives it its identity, and therefore has the character of a Role. It is possible in some cases, like a handle, to be an Object that has had a separate identity at manufacture time, but is always viewed in its role as being or intended to be part of another object. Holes in Objects or bumps on objects are common Features that are not simply identifiable as traditional parts of objects. Features also include parts that are colored differently from other parts of an object: a tatoo on a person's skin is a PhysicalFeature. Also included are parts that are attached or embedded, such as the hair on an animal, or the absence of hair in certain parts (e.g. a bald patch at the crown of the head). This category is heterogeneous, its subtypes being either regions or PhysicalObjects, or the absence of parts of PhysicalObjects where they might ordinarily be. The collection of all outcroppings which stick out from other objects. Instances of this collection are all #$externalParts of some large object. Examples of subsets of this collection are #$Mountains and #$Tail-BodyParts c12ee1b8-9c29-11b1-9dad-c379636f7270 An #$AnimalBodyPartType and a specialization of both #$ExternalAnatomicalPart and #$AnimalBodyPart. #$Appendage-AnimalBodyPart is the collection of all appendages of #$Animals. An appendage is a body part that is connected to, and extends from, an animal's #$Torso (or from another of the animal's appendages, such as a hand extending from an arm). Each appendage is used by the #$Animal for one or more functions. Altogether, appendages serve a wide variety of functions, including locomotion, manipulation, sensing, fighting, scratching, heat dissipation, and balance. Note that appendages are not crucial for the life of the animal; thus a #$Neck-AnimalBodyPart or #$Head-AnimalBodyPart is not considered to be an appendage. bd5882f8-9c29-11b1-9dad-c379636f7270 #$Limb-AnimalBodyPart is a specialization of #$Appendage-AnimalBodyPart and an instance of #$SymmetricAnatomicalPartType. Each instance of #$Limb-AnimalBodyPart is a bilaterally symmetric #$Appendage-AnimalBodyPart that extends from the #$Trunk-BodyCore; including #$Arm, #$Leg, #$Wing-AnimalBodyPart, #$Flipper, and pectoral #$Fin. A #$Finger, #$Toe, #$Hand, #$Tail-BodyPart, ... is not a #$Limb-AnimalBodyPart. be7d6e49-9c29-11b1-9dad-c379636f7270 The collection of all #$Animal appendages used for locomotion overland, supporting the animal and moving it along by walking, running, etc. Thus wings, fins, etc., are not #$Legs. The #$Foot-AnimalBodyPart is considered part of the #$Leg. NOTE: SUMO restricts 'Leg' to Primate legs, but in COSMO any animal leg, including insect legs, are instances. SUMO: 'Leg' (more restricted that this type) The lower Limbs of Primates. bd5898cd-9c29-11b1-9dad-c379636f7270 A 'WalkingAnimal' is an Animal that uses legs as its primary means propulsion. This includes hopping animals such as grasshoppers and kangaroos - 'walking' here just means propelling by means of legs, which is termed 'Ambulation' in COSMO. Note that birds may hop while on the groundm and 'Hopping' is one form of 'Ambulation', but for flying birds this is not the primary means of propulsion. For flightless birds, Walking is the primary means of propulsion. So this is a broad category including many arthropods and some birds, as well as most mammals. NOTE that the capability is for a protypical animal of this category, and some individuals may not have the ability to walk, even though the prototype of the species can. Any attribute that specifically describes the shape of an object. Redefined as an attribute value. Cyc: The collection of objects with a structure that divides into containing cells or compartments. This includes both multi-cellular organisms and non-living cellular objects like beehives. 6d619d58-74bc-11d6-8000-00a0c99cc5ae The three-dimensional shape of a typical person: a head, torso, two arms, two legs. People with missing limbs will have a different shape attribute. hasShape relates abstrct figures, substances, substance types, or individual objects to one or more shapes that describe the spatial form of that entity. When applied to substances, the shape description (e.g. 'lumpy') will be interpreted as a description of objects (quantities of substance) that are composed predominantly of that substance. For abstract geometric figures, the shape may be precise, with infinitely precise edges. For real-world objects, the shape will be only approximate, and in some cases very approximate. COSMO note: 'cellular' is reclassified as a shape attribute. Cyc: #$MulticellularOrganism is a specialization of #$Organism-Whole. Each instance of #$MulticellularOrganism is an organism that is composed of more than one cell. In other words, this is the collection of all instances of #$Organism-Whole that are not instances of #$SingleCellOrganism. c08c4a77-9c29-11b1-9dad-c379636f7270 The collection of all instances of Animal that are not instances of Person. Sometimes called 'Beast', but in COSMO this includes all non-human Animals, including insects, worms, fish, etc. NOTE: that Cyc distinguished 'Person' and 'Human' but that distinction is not followed in COSMO, so 'NonPersonAnimal' has been merged with 'NonHumanAnimal' Cyc (#$NonPersonAnimal) The collection of all instances of #$Animal that are not instances of #$Person, and thus incapable of participating in the activities and social roles characteristic of personhood. (For the more 'biological' concept of #$Animals that are not instances of #$HomoSapiens, see #$NonHumanAnimal). Includes noun sense 1 of 'critter' and part of sense 1 of 'beast' (the non-human part) in WordNet: 1. critter - (a regional term for creature (especially domestic animals)) WN 'beast': 1. (4) animal, animate being, beast, brute, creature, fauna - (a living organism characterized by voluntary movement) e6534f90-c2e0-41d7-80ce-bf3bf02a1467 bd58e066-9c29-11b1-9dad-c379636f7270 animal creature creature1n critter critter1n beast beast1n Another term for 'NonHumanAnimal'. ('Tain't a fit night out for man nor beast). Another term for 'NonHumanAnimal'. This term is also used to refer to all animals. A specialization of #$Animal and an instance of #$OrganismClassificationType. Each instance of #$Homeotherm is a warm-blooded animal. That is, each instance is an animal that is able to maintain a stable body temperature relative to its environmental temperature. Cf. #$Poikilotherm. bd59432f-9c29-11b1-9dad-c379636f7270 A specialization of #$Animal. Each instance of #$ViviparousAnimal is an animal which is born from its mother's body. Cf. #$OviparousAnimal. bf058d0f-9c29-11b1-9dad-c379636f7270 AN organism that eats animals - in Cyc includes carnivorous plants. In Cyc called 'Carnivore', but that term is usually reserved for the mammals, so 'Carnivore' is made a subtype of this category. Cyc: An #$OrganismClassificationType that classifies organisms by their typical source of food. Instances of #$Carnivore typically eat animals (or animal parts or animal-derived products) exclusively. Note that #$Carnivore is _not_ an instance of #$BiologicalTaxon (q.v.); cf. #$CarnivoreOrder. Also note that a #$Carnivore is not necessarily a #$Heterotroph; e.g. carnivorous plants both digest insects and produce food using #$Chlorophyll. bd5904f5-9c29-11b1-9dad-c379636f7270 A specialization of #$MulticellularOrganism and #$Animal. This is the collection of (individual) organisms that have three well-defined derm layers, an ectoderm, endoderm, and mesoderm, and posses a coelem. A coelem is a fluid-filled body cavity between the outer body wall and the gut. Members of the phylum Annelida (segmented worms), for example, are #$Coelomates. be8ad325-9c29-11b1-9dad-c379636f7270 An instance of #$BiologicalPhylum within the #$BiologicalKingdom #$Animal, the #$ChordataPhylum contains the many chordate taxa. All chordate taxa have members who have a notochord (a flexible rod running the length of the body) at some stage of development and pharyngeal gills at some stage of development. The #$ChordataPhylum has as #$taxonMembers all the specializations of #$Vertebrate (including #$Person), as well as some non-vertebrate chordates like Amphioxus. bd59063b-9c29-11b1-9dad-c379636f7270 An instance of #$BiologicalTaxon within the #$BiologicalPhylum #$ChordataPhylum. Each instance of #$Vertebrate is an animal that has a backbone or spine made of bony or cartilaginous vertebrae, which may be separate or fused. Notable specializations of #$Vertebrate include #$Mammal, #$Reptile, #$Bird, and #$Fish. bd58a5e6-9c29-11b1-9dad-c379636f7270 A subset of #$Animal, the collection of all animals which have a mind and are capable of conscious thought, or at least are best treated as such if you have to deal with them. bd58a520-9c29-11b1-9dad-c379636f7270 #$AirBreathingVertebrate is a specialization of #$Vertebrate and an instance of #$OrganismClassificationType. Each instance of #$AirBreathingVertebrate is a vertebrate that usually respires by breathing #$Air during adult life. Includes individual #$Mammals, #$Birds, #$Reptiles, and most #$Amphibians. Most #$AirBreathingVertebrates are #$TerrestrialOrganisms, but some #$AquaticOrganisms breathe air (#$Whales, etc.). All #$AirBreathingVertebrates have #$Lungs and #$RespiratoryTracts. bef7c9c1-9c29-11b1-9dad-c379636f7270 Mammals (female variety) can suckle their young (under certain circumstances), and also typically have hair. The playpus lays eggs, so not all mammals bear their young live. Cyc: An instance of #$BiologicalClass, and a sub-taxon of #$Vertebrate. Each instance of #$Mammal is an air-breathing, warm-blooded animal which, if female, nurses its young with milk secreted by mammary glands. The skin of instances of #$Mammal is typically covered with hair (or sometimes hair modified into scales or plates, as in pangolins), but some types are almost hairless. All mammals other than the Monotremes of Australia bear live young rather than laying eggs, and have teats, which on females are used for nursing the young. Monotremes do not have teats, but both male and female produce milk from mammary glands. bd58a628-9c29-11b1-9dad-c379636f7270 #$Eutheria is a specialization of #$Mammal. Each instance of #$Eutheria is a placental mammal; most mammals are members of this collection. #$Eutheria are born live, nurse from their mothers' #$MammaryGlands and live outside their mothers' bodies. c0d463be-9c29-11b1-9dad-c379636f7270 'feedsOn' is a specialized relation specifying the kind of food that an animal *typically* eats. This is primarily useful to describe the distinction between carnivores and herbivores, and in some cases the specialized eating habits of other types of animals. The typical food can be a substance ('Meat') or a type of organism (e.g. some birds specialize in eating insects, others prefer to eat seeds). An object that has an intrinsic front and back, or an intrinsic bottom and top, or an intrinsic left and right. (The 'or's here are of course inclusive.) See also the comments for the specializations #$FrontAndBackSidedObject, #$LeftAndRightSidedObject, #$TopAndBottomSidedObject, #$HexalateralObject. A perfectly smooth ball bearing is a negative example of a #$BilateralObject. On the other hand, a ball bearing with a dot painted on one side could be considered to have a well-defined front if, for example, the hemisphere centered around the dot were designated as the front side (see also #$NoteAboutSidedObject). A #$FrontAndBackSidedObject is a object with an intrinsic #$FrontSide and an intrinsic #$BackSide. By 'intrinsic' we mean simply that there exists an estabilshed convention according to which one side is considered 'Front' and the other side is considered 'Back'. Usually the two sides in question can be reliably distinguished. Notice that a conventionally distinguishable front and back do not necessarily imply a bottom and top, or a left and right: a #$Worm has a clear-cut front end and a clear-cut back end according to biological convention, but it makes little sense to talk of top, bottom, left or right. However, see also the comment for #$HexalateralObject. Notice also-and this is crucial to the whole conception- that while a #$FrontAndBackSidedObject may well have a preferred orientation and direction of motion, changing either does not change what counts as the 'front' and what counts as the 'back': while I am backing my car out of the driveway in the morning, its back end does not become its front end and vice versa. If an entity does not obey this rule then it does not, generally speaking count as having a distinguishable front and back-example: a dolley, such as is used to transport crates, or some skateboards. hasOrientation specifies the direction toward which the front end of an asymmetric object is pointed, The orientation can be in any number of dimensions. COSMO note: this is for object that are typically oriented vertically in a gravitational field (when functioning normally), and whose top and bottom sides are distinguishable. Cyc: A #$TopAndBottomSidedObject is an object with an intrinsic #$TopSide and an intrinsic #$BottomSide. By 'intrinsic' we mean simply that there exists an established convention according to which one side is considered 'top' and the other side is considered 'bottom'. Usually the two sides in question can be reliably distinguished from one another. For example, by convention, the 'top' of a #$Table-PieceOfFurniture is the side on which other objects usually rest, while the 'bottom' is the side which usually touches the floor. Notice that a conventionally distinguishable bottom and top do not necessarily imply a left and right, or a front and back. A plant is a good example of the case where they do not: top and bottom can be reliably distinguished but not, ordinarily, front and back or left and right. Notice also--and this is crucial to the whole conception--that while a #$TopAndBottomSidedObject may well have a preferred orientation, changing this orientation does not change what counts as 'top' and what counts as 'bottom': if a car flips over on the highway its top is now facing the pavement and its bottom--the undercarriage--is now up in the air. If an entity does not obey this rule then it does not, generally speaking, count as having a distinguishable top and bottom--example: an hourglass or a book. (see also #$NoteAboutSidedObject) be62f2a4-9c29-11b1-9dad-c379636f7270 A #$LeftAndRightSidedObject is an object with an intrinsic left side and an intrinsic right side. By 'intrinsic' we mean simply that there exists an established convention according to which one side is considered 'Left' and the other side is considered 'Right'. Usually, the two sides can be reliably distinguished from one another. Notice that a conventionally distinguishable left and right do not necessarily imply a bottom and top, or a front and back. Interestingly, it has proved impossible so far to find instances of objects with a left and right but no top, bottom, front or back. It is unclear why this should be so, but it apparently pertains to human psychology in reasoning about directions. However, if an object has a conventionally distinguished top, bottom, front, and back, then these suffice to determine an intrinsic left and an intrinsic right. Notice also--and this is crucial to the whole conception--that while a #$LeftAndRightSidedObject may well have a preferred orientation, changing this orientation does not change what counts as 'left' and what counts as 'right': if you turn me upside down my left side does not become my right side and my right side my left. If an entity does not obey this rule then it does not, generally speaking, count as having a distinguishable left and right--example: a houseplant. beb9d424-9c29-11b1-9dad-c379636f7270 A #$HexalateralObject is an object with a well-defined front, back, left, right, top, and bottom. These sides are considered to be intrinsic to the object and do not vary as the object changes position. Any object which is an instance of two different specs of #$BilateralObject is a #$HexalateralObject as a matter of definition-eg, if an object's front and back can be distinguished and its left side can be distinguished from its right, then it also has a well-defined bottom and top. See also comments for #$BilateralObject and for #$FrontAndBackSidedObject, #$LeftAndRightSidedObject, and #$TopAndBottomSidedObject. c123e501-9c29-11b1-9dad-c379636f7270 NOTE: The range is ObjectType. isDerivedFrom relates certain naturally occurring substances to the type of object from which they may be derived. 'Derived' in this sense can mean that the substance (e.g. bone) is still in situ - or, it can mean that the substance was removed from its natural setting and was processed in some way, in which case it would become a ProcessedNaturalSubstance. For substances derived by processing other substances, use 'isPreparedFromSubstance'. isProducedNaturallyBy is a specialization of isDerivedFrom, and specifies that the Substance which is the subject is produced naturally (without the aid of people) by some PhysicalObject.The most typical use will be to specify the origina of certain biological substances produced by organisms, but this is very general, and can be used to specify, for example, that lava is produced by volcanoes. The kind of 'production' that people do for artifacts is specified by the different relation 'isManufacturedBy'. A specialization of #$Organism-Whole. Each instance of #$TerrestrialOrganism is an organism adapted to life on land, out of water. Instances of #$TerrestrialOrganism spend all or most of their time out of the water, either on the land surface or under it. Specializations of #$TerrestrialOrganism include #$Dog, #$Bird, and #$Person. bd590841-9c29-11b1-9dad-c379636f7270 An instance of #$BiologicalOrder, and a sub-taxon of #$Eutheria. Each instance of #$Primate has a relatively large brain case, an unfused radius and ulna in the forelimbs, an unfused tibia and fibula in the hind limbs, and opposable thumbs. Notable specializations of #$Primate include #$Person, #$Orangutan, #$Gorilla, and #$Baboon. bd58a674-9c29-11b1-9dad-c379636f7270 Includes Humans and relatively recent ancestors of Humans. Sense 1 of 'hominid' inWordNet: 1. hominid - (a primate of the family Hominidae) hominid hominid1n Similar to DOLCE: agentive-physical-object Intelligence in the sense used here requires the ability to understand language and communicate in a language at least close to the complexity of human language. This category includes only physical objects. At present, the level of intelligence required to belong to this category and be a physical object is possessed only by people. In the future, robots may qualify. Note that an 'Organization' is also intelligent in the sense used here, but is not a PhysicalObject, therefore does not fall into this category. DOLCE: Within Physical objects, a special place have those to which we ascribe generic intentionality (compatibly to Brentano's distinction, the ability to internally represent a description). These are called Agentive, as opposite to Non-agentive. In general, we assume that agentive objects are constituted by non-agentive objects: an organism is constituted by bodily organs, a robot is constituted by some machinery, and so on. Among non-agentive physical objects we have for example houses, bodily organs, pieces of wood, etc. Generic agentivity is defined here in a wide sense as implying representation or conception (to be characterized in a dedicated - but not developed as yet - ontology of mind). A representation or conception only requires intentionality in Brentano's terms (i.e., the ability to represent something to oneself). See also 'rational physical object'. see: Person COSMO note: 'Agent-NonArtifact' is classified as a subtype of GenericLocation because thoughts are located in the mind of 'IntentionalAgent's, and therefore even SupernaturalBeings need to be a 'location' to be the place where their thoughts are located; this obscure requirement does not affect ordinary reasoning. Other labels: Agent[Cyc] agentive-physical-object[DOLCE] OPENCYC 1: MAY 23, 2002: The collection of #$Agent-Generics (q.v.) that are not tangible artifacts (cf. #$AgentiveArtifact). #$Agent includes all naturally-occurring agents (e.g. #$Persons and #$Animals), any #$SupernaturalBeings (q.v.), and #$Organizations. Person(Cyc) Human(SUMO) Person is a member of the species Homo Sapiens, and is a synonym of 'Human Being'. As with other categories, this general Type includes all variants, in all contexts, so a fetus is a Person, a dead person is a Person, a fictional person is a Person, and a hypothetical but not yet conceived person is also a Person. The type of Person one is dealing with depends on the context. We typically want to deal with living persons, and that category is provided for convenience as the subType 'LivingPerson'. There is, however, no restriction on whether a Person or LivingPerson exists in the real world or in some fictional or hypothetical world; that distinction is left to the context to disambiguate. Allowing a dead Person to be a Person and also requiring that a Person is a PhysicalObject with mass presents a problem. Where is the mass of a dead Person? To allow this representation, we require every dead person to have 'remains', which would be the physical object that 'is' the Person. The 'remains' do not have to be an identifiable corpse, but can be the trace matter of a person's body, even if too dispersed to be recognizable as a Person's remains (e.g. ashes). A dead Person may 'be located' wherever its remains are, which could be widely dispersed; however, it is unlikely that the 'location' of a dead person will ever be an issue other than when the corpse is in a known grave; it is mentioned here only to provide a clear understanding of the intended meaning. Only a LivingPerson or a Corpse are compact physical objects that are Persons. 'Skeletal remains' may be dispered, and will not necessarily be compact objects. Other odd implications come if one (perhaps in a fictional context) talks about the ghost of a dead person. The ghost itself is immaterial (see 'Soul'), therefore has no physical location. If there is a physical manifestation of the ghost, the manifestation has material aspects (e.g. light waves), which are material and do have a location. So, if one wants to talk about a ghost being in a particular location, it would be necessary in COSMO to talk about its manifestation. For a ghost, its physical manifestation would (in some hypothetical context) play a role similar to the body of a living person. That is not yet (rev841) formalized. NOTE that in COSMO, when importing assertions created outside of a COSMO-aware system, it is permitted for default reasoning purposes to use the generic type of Organisms as meaning the **typical adult**, and specify attributes for the instances accordingly. If in some application or context it is necessary to deal with abnormal variants of an organism whether immature, diseased, or otherwise impaired, the categories 'ImmatureOrganism' or 'AbnormalOrganism' can be used. If one needs to make provision for abnormal (or dead) organisms, the default mechanisms must be used with extreme care. The subtype of 'LivingPerson' should be considered, though that category still includes fictional and hypothetical persons.. @ToDo: Defaults are usually handled using 'typically' relations, but for organisms all restrictions on the type are considered as default: this needs to be specified in rules in the FOL version. OPENCYC 1: MAY 23, 2002 The collection of all human beings. Something is an instance of #$Person just in case it is a member of the species Homo Sapiens, and thus #$Person is an instance of #$BiologicalSpecies in the #$BiologyMt. Persons are the most intelligent kind of #$Primate, and the only kind known to be naturally capable of speaking a language. #$Person excludes non-human legal persons, who are, however, included in the collection #$LegalAgent. SUMO: Modern man, the only remaining species of the Homo genus. COSMO note: the superfluous parent Type 'Thing' was added so as to make this important Type easily visible by drill-down in the hierarchy. Corresponds to sense 1 of 'person', noun sense 1 of 'human' and sense 1 of 'human being' ans sense 2 of 'soul' in WordNet: WN 'person' 1. (7229) person, individual, someone, somebody, mortal, soul - (a human being; there was too much for one person to do') WN 'human' 1. (5) homo, man, human being, human - (any living or extinct member of the family Hominidae characterized by superior intelligence, articulate speech, and erect carriage) person person person1n human human1n human being human being1n soul soul soul2n person people COSMO note: the restriction requires that the Agent who is experiencing the MentalSituation be specified. Cyc: A collection of mental states and events whose instances are characterized by intentionality: they are of or about some thing external to themselves. Thoughts, acts of perception, and propositional attitudes are three common types of intentional mental situations. Thus, a particular act of thinking about the Eiffel Tower, an event of seeing the Eiffel Tower, and a given subject's believing that the Eiffel Tower is in Paris are three intentional mental situations, all having (at least) the Eiffel Tower as their object. Any thing whatsoever can in principle be the object of an intentional mental situation: I can think about a given physical object, an event, a relation, an attribute, a proposition, a mental state (my own or another's), a set, a collection, or anything else. (Note that the above mentioned belief about the Eiffel Tower and Paris is arguably not itself about the _proposition_ that the Eiffel Tower is in Paris. But now note that my belief in the content of the sentence preceding this one clearly _is_, in part, about that proposition.) Mental situations that are _not_ intentional, and thus not in this collection, include moods, itches, and pain experiences. Note that, although they are indirectly related (see e.g. #$PurposefulMentalActivity), the sense of intentional described above is not to be confused with its other sense as an antonym of accidental . See also #$IntentionalMentalEvent, #$IntentionalMentalState, #$objectOfMentalSituation, and #$thinksAbout. bdc339c8-9c29-11b1-9dad-c379636f7270 A specialization of both #$AtLeastPartiallyMentalEvent and #$IntentionalMentalSituation (qq.v.). This is the collection of (at least partially) mental events whose instances are characterized by intentionality: they are of or about some thing external to themselves. Thoughts and acts of perception are two common types of intentional mental events. Thus, a particular act of thinking about the Eiffel Tower and a particular act of seeing the Eiffel Tower are both intentional mental events, each having (at least) the Eiffel Tower as their object. Any thing whatsoever can in principle be the object of an intentional mental event: I can think about a certain physical object, an #$Event, a #$Relation, an attribute, a #$Proposition, a mental state (my own or another's), a set, a #$Collection, or anything else. Mental events that are _not_ intentional, and thus not in this collection, include non-localized pain experiences, and at least some instances of #$ExperiencingEmotion (q.v.). Note that, although they are indirectly related (see e.g. #$PurposefulMentalActivity), the sense of intentional described above is not to be confused with its other sense as an antonym of accidental . Nor is it to be confused with the logico-semantic concept of _intensional_ meaning. See also #$IntentionalMentalState, #$objectOfMentalSituation, and #$thinksAbout. bfde8dd4-9c29-11b1-9dad-c379636f7270 The intersection of #$StrictlyMentalEvent and #$PurposefulAction, and also a specialization of #$IntentionalMentalEvent. Each instance of this collection is an event involving intentional mental activity on the part of at least one performer (see #$performedBy). Solving a math problem (cf. #$DoingMath), planning an attack and performing a thought experiment (cf. #$ThoughtExperimenting) are all examples of #$PurposefulMentalActivity. However, daydreaming or having undesired obsessive thoughts are not examples. A borderline example might be arriving at the solution to a math problem in one's sleep after intentionally working on the problem during the previous day. c14de554-9c29-11b1-9dad-c379636f7270 'Intellect' is a MentalObject that is the part of the Mind in which the processes of Thinking and Reasoning (as contrasted with Feelings) are 'located'. 'Intellect' is not a a PhysicalObject, but may be considered as an informal way to refer to the parts of the Brain that are responsible for thinking rationally as contrasted with emotions. CAVEAT: a 'MentalObject' is an Object created by a Mind. Here, an Intellect is part of a Mind and is a MentalObject, suggesting that Minds create themselves. Not clear if this is a logical problem. Each Intellect is part of some Mind, but the restriction value is the type 'Mind' and does not require that the 'Mind' be reified. Longman's vocabulary has 'mind' but not 'intellect', and the term 'mind' is probably used there (in one sense) in the same sense as 'Intellect' in COSMO. Corresponds to noun sense 1 of 'intellect' and sense 7 of 'mind' in WordNet: 1. (5) mind, intellect - (knowledge and intellectual ability; "he reads to improve his mind"; "he has a keen intellect") mind intellect intellect1n mind mind7n COSMO note: the retriction requires that all Thinking occur at some Intellect, but the 'occursAt' relation is a type-level relation that does not require actual instantiation of the Intellect where the Thinking occurs. Cyc: A specialization of both #$IntentionalMentalEvent and #$StrictlyMentalEvent. Each instance of #$Thinking is a mental process with at least some propositional content (cf. #$Proposition), differing in this way from the mere experiencing of sensation or emotion (cf. #$ExperiencingEmotion). The collection includes both 'atomic' mental events of having a single thought with propositional content, and 'composite' mental events involving the processing or analyzing of thoughts. It is widely considered to be necessarily accompanied by consciousness (cf. #$Consciousness), but it is at least arguable whether this is really the case (consider as possible counterexamples subconscious thoughts, or the thinking of an intelligent machine). Instances of #$Thinking also need not necessarily be instances of #$PurposefulMentalActivity (q.v.) - consider obsessive thoughts, for instance. Notable specializations of this collection include #$Concentrating and #$GroupingThingsMentally. Note that as a specialization of #$StrictlyMentalEvent, #$Thinking does not include mental activities which essentially involve some relationship to extra-mental objects - such as, for instance, #$ThinkingAboutTheStateOfTheWorld. Thus, mental activities such as #$Evaluating and #$InventingSomething are specializations of #$ThinkingAboutTheStateOfTheWorld rather than of #$Thinking. Corresponds to verb sense 3 of 'think', noun sense 1 of 'thinking' and noun sense 2 of 'thought'in WordNet: 3. (111) think, cogitate, cerebrate - (use or exercise the mind or one's power of reason in order to make inferences, decisions, or arrive at a solution or judgments; 'I've been thinking all day and getting nowhere') WN noun 'thought': 2. (21) thinking, thought, thought process, cerebration, intellection, mentation - (the process of using your mind to consider something carefully; 'thinking always made him frown'; 'she paused for thought') bd58875c-9c29-11b1-9dad-c379636f7270 think think think3v thought thought thought2n thinking thinking1n A specialization of #$ConceptualWork. Each instance of #$PropositionalConceptualWork is an abstract work constituted at least in part by propositional information. Propositional information is information which has a truth value in some context (see #$Proposition). Typically, instances of #$PropositionalConceptualWork will be works whose instantiations are composed of (or merely contain) one or more spoken or written sentences. Positive examples of #$PropositionalConceptualWork include any instances of #$ProseLiteraryWork-CW (including instances of #$AcademicEssay and #$ExpositoryArticle). A positive example that is *not* a literary work is any instance of #$MusicalComposition that has lyrics that express propositions; another positive example is a mostly graphical advertisement that also includes text that expresses propositions. bf92f9bd-9c29-11b1-9dad-c379636f7270 A specialization of #$PropositionalConceptualWork. Each instance of #$TextualPCW is an abstract work whose propositional content is expressed, at least in substantial part, in text. Positive examples include instances of #$Novel-CW, #$Article-CW, #$Resume, and #$RestaurantMenu. Negative examples include episodes of an instance of #$TVShow-CW. #$TextualPCWs may include non-textual components which expand on or otherwise contribute to the propositional content of the work, but the propositional content of the #$TextualPCW could, alternatively, be expressed entirely in text. COSMO note: Note that the more generic 'AbstractText' does not have to be a Propositional work, since the more genreic text may not contain any propositions in it - it might be a question. c1266219-9c29-11b1-9dad-c379636f7270 COSMO note: in COSMO, a 'narrative' can be formatted, even in as simple a form as a table that records values of attributes of an object over time. Such a simple table would be an instance of 'ValueHistory'. Cyc: A specialization of #$PropositionalConceptualWork. Each instance of #$Narrative is an abstract work that recounts a sequence of events (in chronological order or in such a manner that their temporal order can be ascertained) involving some agent or agents. Instances of #$Narrative may be fictional or factual and, accordingly, may involve instances of #$Person or instances of #$FictionalCharacter. Important specializations of #$Narrative include #$Novel-CW and #$Biography. Includes both non-fictional and fictional stories, coresponding to senses 1 and 2 of 'story' in WordNet: 1. (36) narrative, narration, story, tale - (a message that tells the particulars of an act or occurrence or course of events; presented in writing or drama or cinema or as a radio or television program; "his narrative was interesting"; "Disney's stories entertain adults as well as children") 2. (14) story - (a piece of fiction that narrates a chain of related events; "he writes stories for the magazines") bd58886c-9c29-11b1-9dad-c379636f7270 story story story1n story2n COSMO note: An Argument in COSMO is an Assertion or Group of Assertions that the speaker believes provides a justification for believing some fact(s). This Type is represented as an Assertion (a subtype of Proposition). In ordinary linguistic use the word 'argument' often refers to the linguistic phrases used, but since in COSMO every logical 'Argument' impies a linguistic representation, these two aspects (propositional content and linguistic representation of the content) can be considered as alternative views that can be interchangeably used in many circumstances. It is hard to disentangle the two forms in this case, but @ToDo - this should be done. Using both Assertion (meanings) and ConceptualWork (representation) allows relating an 'Argument' to 'Reasoning' as its symbolic representation: an Argument is the AbstractSymbolicrepresentation of a Reasoning Event. In the restriction below, the Reasoning Event is an existentially required instance - this means that when representing an Argument, it is necessary to specify when and by whom it was created. See also related 'Reasoning','Justifying', 'Justification'. An additional nuance for 'Argument' is that it is always directed at an audience of one or more listeners (the audience can be the speaker). Therefore the linguistic representation of an Argument is an instance of a Communication. SUMO: Any proposition which has the form of a deductive or inductive argument, i.e. a set of premises which, it is claimed, imply a conclusion. Corresponds to noun sense 1 of 'argument' in WordNet: 1. (23) argument, statement - (a fact or assertion offered as evidence that something is true; "it was a strong argument that his hypothesis was true") argument argument argument1n SUMO: An Argument which has the form of a deduction, i.e. it is claimed that the set of premises entails the conclusion. A MentalEvent in which an IntelligentAgent explicitly creates a series of one or more assertions that lead from premises to a conclusion. To be an instance of this type, the Reasoning does not have to be valid. This is a description of a human action, not of a valid logical structure An Assertion that is created by a Reasoning Event. It is the Consequent part of an Argument, and may have more than one clause connected by 'and' or 'or. An Assertion that is created by an Evaluating Event. In an Evaluation, the Premises are derived from observation of the thing(s) being evaluated, as well as from prior knowledge. A specialization of #$PurposefulAction and #$ThinkingAboutTheStateOfTheWorld. Each instance of this collection is an event in which at least one agent evaluates some real-world thing or situation. Notable specializations of #$Evaluating include #$MeasuringSomething, #$MedicalTesting, and #$Navigating. This collection differs from #$AnalyzingSomething in that the latter does not necessarily involve some extra-mental entity. bd58bb07-9c29-11b1-9dad-c379636f7270 causes specifies that one EventType usually or often has as a result some other EventType; the resulting EventType may be a PersistentState (persistent for some period of time after it is caused); the probability of the resulting event ensuing is not specified,but can be specified by subrelations. NOTE: This relation is for direct physical causation, not the kind of causation that is mediated by mental processes, such as 'Jack's action caused me to leave the room'. The relations specifying mental causation are discussed under 'causesMentalEvent'. NOTE: to specify that one event inevitably causes another use the relation 'alwaysCauses'. To specify that an instance of an Event was caused by another instance of an Event, use 'hadEffect'. The domain of this relation includes instances of 'Event' to allow inheritance of the relation in the OWL format. COSMO note: causality is a very primitive concept, about which there is no broad consensus. For COSMO, the main inference is the contrafactual assertion that 'if A caused B, B would not have occurred without A'. This by itself does not distinguish 'cause' from enabling conditions, which are represented in COSMO by the relation 'allowed'. The notion of 'causality' in COSMO requires that matter or energy be transferred from the objects participating in the causal Event to some Objects participating in the Effect Event. In the relation 'allows', this direct form of causation is not required. Processes can also have causal relations. The causality of processes is not yet elaborated in COSMO. More logical elaboration is needed. This relation and 'Causes' both Correspond to verb sense 1 of 'cause' in WordNet, and to part of sense 3 of 'produce' (the part 'cause to happen or occur'): 1. (114) cause, do, make - (give rise to; cause to happen or occur, not always intentionally; 'cause a commotion'; 'make a stir'; 'cause an accident') WN verb 'produce' 3. (27) produce, bring about, give rise - (cause to happen, occur or exist; "This procedure produces a curious effect"; "The new law gave rise to many complaints"; "These chemicals produce a noxious vapor"; "the new President must bring about a change in the health care system") cause cause cause1v produce produce produce3v because alwaysCauses specifies that one EventType inevitably has as a result some other EventType. This is primarily used for conceptual relations, like 'killing causes death'. In the physical world, there are many event types that usually result in some other EventType, but not always - for that relation use 'causes'. To specify that an instance of an Event was caused by another instance of an Event, use 'hadEffect'. The domain of this relatoin includes instances of 'Event' to allow inheritance of the relation in the OWL format. NOTE that some Event that always causes another is not necessarily itself always the cause of that second Event - something else may also cause the second Event. To express the inverse, use 'isCausedBy' because A Judging is a mental event in which some consideration of evidence and weighing of alternatives is involved. It is not as specific as a Deciding, in that Deciding implies that some future course of action is being considered, whereas the more general Judging may have no consequence other than an evaluation of some situation for one's own internal appreciation or information. An esthetic appreciation can be a Judging without any Deciding on what the results of that Judging should entail. NOTE that although every 'Judgment' (which see) is caused by some act of Judging, it is not necessarily true that an act of Judging will result in a Judgment - the available facts may be inconclusive in the opinion of the judging person. Therefore there is a 'causes' relation specified between Judging and Belief, but it is between types and therefore does not require existence of an instance of Belief produced by the Judging. Corresponds to noun sense 4 of 'judgment' in WordNet: 4. (3) judgment, judgement, judging - (the cognitive process of reaching a decision or drawing conclusions) judgment judgment4n 'containedExperience' points from a MentalEvent to some MentalObject that formed the experience (if any) that the experiencer experienced (if the mental event was an experience event). Examples of experience types that may be pointed to by this relation are 'Belief' and 'Emotion'. It is in the past tense, as Events in COSMO are considered as bounded in time, and must be in the past after the end point. NOTE: this relation might better be represented by an argument in a ternary relation, but is binary to accommodate the limitations of OWL. 'hasBeliever' points from a Opinion or Belief (or BeliefSystem) to to some IntelligentAgent (or group) that holds that Belief. 'believes' is the inverse of 'hasBeliever'; it points from an intelligent agent to a Belief (or Opinion) or BeliefSystem to which the agent has at least nominal adherence. NOTE that to say someone 'believes' something does not indicate the strength of the belief. For religious 'believers', the belief may be so nominal as to be nearly meaningless. But there should be some agreement to some core elments of a belief system to say that someone is a 'believer'. @TODo: For cases where someone is, for example, traditionally Catholic but has no actual belief at all in any of the theological assertions of that faith, the relation 'believes' should not be used. Since the ontology says that a Catholic 'believes' Catholicism, a different Type should be used for those who have only nominal but not actual adherence to a faith. As of COSMO version 0.45, this distinction has not been added to the class hierarchy - no parent 'nominal' type is defined. This may best be approached by creating a 'nominal' function. Corresppnds to verb senses 1 and 4 of 'believe' in WordNet: this relation is used to say that 'X blieves Y' or the inverse, 'Y is bellieved by 'X' WN verb 'believe': 1. (119) believe - (accept as true; take to be true; 'I believed his report'; 'We didn't believe his stories from the War'; 'She believes in spirits') 4. (10) believe - (follow a credo; have a faith; be a believer; 'When you hear his sermons, you will be able to believe, too') believe believe believe1v believe4v An Opinion is a Proposition that an IntelligentAgent considers more likely to be true than not to be true. An Opinion is not necessarily considered to be certain or to be strongly held by the agent. If strongly held, it would be a Belief (a subtype of Opinion). NOTE that an assertion that contains an Opinion is not an opinion in this sense,but a representation of an Opinion. This includes both publicly expressed and privately held opinions. NOTE: An opinion poll result is a *measure* of opinions, not an instance of this type. NOTE that although an 'opinion' is not necessarily certain, this type includes 'expert opinion' as presented in court testimony. NOTE in WordNet 2.1, the relationship of Opinion (synset: opinion, sentiment, persuasion, view, thought) and Belief are inverted relative to COSMO, with Belief being more general in WOrdNet includes noun senses 1 and 2 of 'opinion' in WordNet:. 1. (408) opinion, sentiment, persuasion, view, thought - (a personal belief or judgment that is not founded on proof or certainty; 'my opinion differs from yours'; 'what are your thoughts on Haiti?') 2. (76) public opinion, popular opinion, opinion, vox populi - (a belief or sentiment shared by most people; the voice of the people; 'he asked for a poll of public opinion') opinion opinion opinion1n opinion2n A Belief is a Proposition that an IntelligentAgent considers to be so likely to be true that there is no value in doubting it, and no good reason to act as though it might be false. The degree of certainty which people attach to various statements of fact varies on a continuous scale, and it is probably not possible to distinguish some opinions that a person has some doubt about from what they 'believe'. Also, people may say they 'believe' one thing, but act as though they don't consider it true. One function of representing a Belief (as contrasted with an assertion that a person may make) is to allow representing a Lie (an assertion contrary to an Agent's belief), and to provide one componenent of motivation for an Agent to act. NOTE that although a Belief, like other MentalObjects, may have a location that is the sum of all physical representations, it must have had at least one active believer to be a Belief. That Believer may be a DeadPerson. The detailed axiomatization of 'belief' is postponed until COSMO is converted to FOL and some task that requires details of belief is at hand. Corresponds to noun sense 1 of 'belief' in WordNet: 1. (19) belief - (any cognitive content held as true) belief belief belief1n 'wasExperiencedBy' points from a MentalEvent or AilmentCondition to the 'IntentionalAgent' that performed (experienced) that Event. It is in the past tense, as Events in COSMO are considered as bounded in time, and must be in the past after the end point. The inverse of 'wasExperiencedBy' - relates an agent to some experience in which s/he was principle agent. @ToDo: include ailments of plants?? Corresponds to part of verb sense 3 of experience and part of verb sense 3 of 'have' in WordNet, including ailments and MentalEvents, but not applying to inanimate things: 3. (220) experience, receive, have, get, undergo - (go through (mental or physical states or experiences); 'get an idea'; 'experience vertigo'; 'get nauseous'; 'undergo a strange sensation'; 'The chemical undergoes a sudden change'; 'The fluid undergoes shear'; 'receive injuries'; 'have a feeling') have have have3v experience experience experience3v A PersistentState that is a MentalEvent. A HavingAnOpinion is a stative Event during which some 'IntentionalAgent' has an 'Opinion' in its mind. An 'Opinion' is some Proposition. The necessary components of each instance of 'HavingAnOpinion' are an individual 'IntentionalAgent' and an Opinion (which is a subtype of Proposition). HavingAnOpinion can be the result of almost any kind of cognitive process, logical or illogical. 'BeliefState' is a subtype of 'HavingAnOpinion'. This sense most closely resembles sense of 'feel' in WordNet, but the WordNet sense includes 'FormingAnOpinion', which is a separate Event type;: 2. (150) find, feel - (come to believe on the basis of emotion, intuitions, or indefinite grounds; 'I feel that he doesn't like me'; 'I find him to be obnoxious'; 'I found the movie rather entertaining') feel feel feel2v hasAttribute relates an Object or Substance to some Attribute which the Object has. Each Attribute will explictly include an AttributeType and an AttributeValue. For cases where an AttributeValue may measure more than one AttributeType, using this relation may leave ambiguity as to its precise meaning. This may be used where it is desirable or necessary to explicitly specify the AttributeType as well as the value. Thus a Length will have 'Length' as its AttributeType and some length measure as the value. In COSMO the formalism is adopted that an instance of Attribute can also be an instance of TimeSlice. If hasAttribute points to an instance of Attribute that is an instance of TimeSLice, that is equivalent to specifying that the Attribute applies at all points in the duration of the TimeSlice, i.e. remains constant during that time interval. NOTE That if an Object is specified as having some Attribute during some interval of time, that is equivalent to specifying the existence of a PersistentState for that Object during that interval. Corresponds to part of verb sense 1 of 'have' in WordNet ('has a reddish color'; 'has a length of 30 feet'): 1. (1202) have, have got, hold - (have or possess, either in a concrete or an abstract sense; 'She has $1,000 in the bank'; 'He has got two beautiful daughters'; 'She holds a Master's degree from Harvard') The inverse of 'hasAttribute'. have have have1v typicallyHasAttribute relates an Object or Substance to some Attribute which the Object typically has. Each Attribute will explictly include an AttributeType and an AttributeValue. Thus a Length will have 'Length' as its AttributeType and some length measure as the value; if it is known that the typical attribute values for instances of some type typically fall into some range of quantitative values, that range can be used as the quantifier in the value. For QualitativeAttributeValues, if instances of some type typically some have one of several values, the Attributevalue pointed to by Attribute can be specified as the union of the QualitativeAttributeValues (which are themselves types). Corresponds to part of verb sense 1 of 'have' in WordNet ('has a reddish color'; 'has a length of 30 feet'): 1. (1202) have, have got, hold - (have or possess, either in a concrete or an abstract sense; "She has $1,000 in the bank"; "He has got two beautiful daughters"; "She holds a Master's degree from Harvard") have have have1v hasCardinalty relates a Group to an integer enumerating the number of direct component elements of which the group consists. Because an element of a Group may itself be a Group, the Cardinality does not indicate the number of things that ultimately are not Groups, only the number of things that are related by the 'hasComponentElement' relation. NOTE that AbstractString is included explicitly, not only as a subtype of Group, because zero-length (zero-cardinality, considered as though it were an ordered group) strings may exist but zero-cardinality Groups are not permitted. A Pair is a Group containing exactly two elements. This includes all senses of 'pair' in WordNet; the subtypes can differentiate according to the kinds of things that are included in the Pair: 1. (18) pair, brace - (a set of two similar things considered as a unit) 2. (10) couple, pair, twosome, twain, brace, span, yoke, couplet, distich, duo, duet, dyad, duad - (two items of the same kind) 3. (7) pair - (two people considered as a unit) 4. pair - (a poker hand with 2 cards of the same value) 2 pair pair pair1n pair2n pair3n pair4n A OrderedPair is a Tuple containing two elements. A Difference is an Attribute of an OrderedPair of entities, which is represented as an OrderedPair of AttributeValues that differ between those entities, with the ordering of the Attributes being the same as the ordering of the pair being compared. The entities being compared may consist of the diachronically same entity at different times (the entities may be instances of TimeSlice). See also 'AttributeComparison' for a similar type that can express differences, but with additional flexibility. The Difference is formally an Attribute, and therefore each Difference must specify the AttributeType (Color, Length) within which the comparison is being made. The value of the Difference is contained within an OrderedPair of Attributes, but may be expressed differently depending on whether the values being compared are quantitative and commensurate. A Difference in commensurate QuantitativeAttributeValues can be expressed linguistically as a single QuantitativeAttributeValue of the same dimension ('they differ by six inches in height'). **NOTE** that, as an Attribute, it would be possible to specify the value using a 'hasValue' relation; following the representation chosen here, that AttributeValue should be an OrderedPair of the two AttributeValues being compared. However, for convenience, this layer of indirection is not represented, and the two components of the AttributeValue are specified directly by making the Difference itself an OrderedPair, and using the 'hasFirstElement' and 'hasSecondElement' relations to identify the two compnents of the value. IF this proves confusing or logically problematic, it can be changed back to a representation consistent with other Attribute representations. (v0.50, rev 679) ** For differences between commensurable quantitative attributes, the difference between pair {a, b} will be attr(a) - attr(b) (the attribute value of first element minus the second). ** For qualitative attributes or relations, the Difference consists of a group of one or more paired AttributeValues, one pair for each type of AttributeValue or Relation for which the value differs. Linguistically a qualitative difference can be expressed thus: if, for the pair {a, b} if a is red and b is blue, one may say 'a is red but b is blue'. NOTE that in order to be considered as a 'Difference' the pairs of AttributeValues constituting each difference must consist of AttributeValues that are disjoint from each other, which in general means that they must be of identical or commensurate AttributeType. To say that 'A is 5 feet long and Y is red' does not specify a legitimate Difference between X and Y. The AttributeValues that differ must shape a common AttributeType, and that AttributeType must be specified using the 'hasAttributeType' relation on each instance of 'Difference'.. If there are no attribute values or relations that differ, the two entities might actually be identical - but if they have different locations, two entities will not be mathematically (logically) identical even if the locations are not specified in the description of the entities. The problem in deciding identity from a list of differences is that one never knows that *all* properties of two entities are known to be compared. Quantum mechanical issues create additional complications in comparisons at the subatomic level. A difference is one or more pairs of Attributes, qualitative or quantitative, that is derived as the result of a comparison process between one or more attributes of two entities, or between that attribute of a single entity after some period of time, as after an Event. A comparison process may also result in a partially complementary list of similarities (see 'Similarity'). There is no exact WordNet concept that expressses this meaning, but this is closest to WordNet sense 1 of 'difference: WN: the quality of being unlike or dissimilar; 'there are many differences between jazz and rock' WN-N04692996: sense 1 of 'difference' in WN 2.1. In the case of wordnet sense 1, it appears that this is intended to represent an overall difference, which could be a set of differences between two entities.There is, however, no other sense of 'difference' in WordNet that is more general, so this sense is assigned the most general 'difference' A common-sense problem arises when we classify a difference as merely an attribute which expresses the result of 'subtracting' one attribute value from another. If there is no difference, this result constitutes both a difference (value = 0) and a similarity (i.e. no difference). This is counterintuitive, from a linguistic point of view. Accordingly, though logically a 'similarity' could be classified as merely a 'small difference', the term 'similarity' will not be arranged as a subtype of 'Difference', but directly under 'AttributeValue', as is 'Difference'. To 'compare and contrast' two entities, both the similarities and the differences might be listed. This correspnds most closely to noun sense 1 of 'difference' in WordNet: 1. (77) difference - (the quality of being unlike or dissimilar; 'there are many differences between jazz and rock') difference difference1n hadEffect Specifies one of the effects that are the result of an Event. Not every Event needs to have an 'effect'. A stative event merely represents the continuation of some attributes at their initial value for some interval of time, and no changes occur to be worthy of representing as an 'effect'. The 'Effect' that an Event has need not be physically caused by the Event; it could be a reaction to the Event by an IntentionalAgent. For the more specific case of Events that caused an Agent to act, use 'compelledAgentToAction' or 'convincedAgentToAction'. NOTE that this is an instance-level relation, and cannot be used to state that some type of Event typically or always causes some type of Effect. For the type-level relation use 'causes' or 'alwaysCauses'. NOTE that the use of the past tense in this relation does not necessarily mean that the Event argument occurred in the past before the assertion time; this relation can also be used to relate possible future Events. The past tense merely emphasizes that we are discussing arg1 Events that, in the given context, are viewed as completed and not ongoing. In Cyc the relation '#$causes-EventEvent' (guid = bfa7c0e3-9c29-11b1-9dad-c379636f7270) has a similar meaning. Cyc: (#$causes-EventEvent CAUSE EFFECT) means that the event CAUSE was sufficient to cause the event EFFECT. #$causes-EventEvent is the predicate to use for token-token event causation, i.e., causation between individual events. See #$NoteAboutCausationPredicates for a map of related predicates. Includes to verb senses 1 and 2 of 'cause' in WordNet:: 1. (114) cause, do, make - - (give rise to; cause to happen or occur, not always intentionally; "cause a commotion"; "make a stir"; "cause an accident") 2. (46) induce, stimulate, cause, have, get, make - - (cause to do; cause to act in a specified manner; "The ads induced me to buy a VCR"; "My children finally got me to buy a computer"; "My wife made me buy a new sofa") cause cause cause1v cause2v 'caused' is a relation between instances of Events, specifying that one Event resulted by some direct mechanism in the occurrence of some other Event. It is a subproperty of 'hadEffect', restricted to Events where the occurrence of one resulting Event can be attributed to the necessary occurrence of a prior or simultaneous Event. NOTE: This relation is for direct physical causation, not the kind of causation that is mediated by mental processes, such as 'Jack's action caused me to leave the room'. The relations specifying mental causation are discussed under 'causesMentalEvent'. COSMO note: causality is a very primitive concept, about which there is no broad consensus. For COSMO, the main inference is the contrafactual assertion that 'if A caused B, B would not have occurred without A'. This by itself does not distinguish 'cause' from enabling conditions, which are represented in COSMO by the relation 'allowed'. The notion of 'causality' in COSMO requires that matter or energy be transferred from the objects participating in the causal Event to some Objects participating in the Effect Event. In the relation 'allows', this direct form of causation is not required. Processes can also have causal relations. The causality of processes is not yet elaborated in COSMO. More logical elaboration is needed. This relation and 'Causes' both Correspond to verb sense 1 of 'cause' in WordNet, and to part of sense 3 of 'produce' (the part 'cause to happen or occur'): 1. (114) cause, do, make - (give rise to; cause to happen or occur, not always intentionally; 'cause a commotion'; 'make a stir'; 'cause an accident') WN verb 'produce' 3. (27) produce, bring about, give rise - (cause to happen, occur or exist; "This procedure produces a curious effect"; "The new law gave rise to many complaints"; "These chemicals produce a noxious vapor"; "the new President must bring about a change in the health care system") cause cause cause1v produce produce produce3v because 'wasCausedBy' is the inverse of 'caused'. This corresponds to part of the meaning of lingujistic phrases 'due to' or 'owing to'. owing to A BeliefState is a stative Event (an Event in which some property stays constant - often called a 'state'), during which some 'IntentionalAgent' believes some proposition. The necessary components of each instance of BeliefState are an individual 'IntentionalAgent' and a Belief (which is a subtype of Proposition). Each BeliefState occurs as a result of some Event which is a Judging or an Evaluating. NOTE that a BeliefState can involve a weak belief, such as an Expectation. It is not necessary for someone to be actively thinking about something in order to 'believe' it. Therefore a BeliefState is not a subtype of 'Thinking' which is conscious and intentional. NOTE also that although a Belief is the result of some process of Judging or Evaluating, the process does not have to be rational or fact-based, it may be a leap of faith from some very weak evidence. As an Event, a BeliefState has a specific beginning and ending time. But if one asserts that an Agent believes something, one may not know when that belief began and when it will end, and it is not necessary to specify the beginning and ending time to create an instance of BeliefState. It may be preferable to define and use a BeliefProcess rather (a FunctionalProcess) than a BeliefState (an event) but as of version 0.52 such a FunctionalProcess has not been represented in COSMO. This sense includes three of the WordNet verb senses - 1, 2, and 4, of 'believe'; the third sense is represented in COSMO as 'ExpectingSomething'; it also includes verb sense 1 of 'think' (same as sense 2 of 'believe' in WordNet.. 1. (119) believe - (accept as true; take to be true; 'I believed his report'; 'We didn't believe his stories from the War'; 'She believes in spirits') 2. (72) think, believe, consider, conceive - (judge or regard; look upon; judge; 'I think he is very smart'; 'I believe her to be very smart'; 'I think that he is her boyfriend'; 'The racist conceives such people to be inferior') 3. (37) believe, trust - (be confident about something; 'I believe that he will come back from the war') believe believe believe1v believe2v believe3v think think think1v A common tern synonymous with 'BeliefState'. A specialization of #$AtLeastPartiallyMentalEvent. Each instance of this collection is an event which is 'strictly mental' in the sense that if the event is instantiated by some physical situation, that instantiating situation is not essential to the event being an event of that type. For instance, perceiving an apple is not an instance of #$StrictlyMentalEvent insofar as it essentially requires sense organs and an apple (and thus #$Perceiving is not a specialization of #$StrictlyMentalEvent). However, the phenomenological aspects of this event, e.g., the experience of redness or roundness, do not require the sense organs or the apple, and it is conceivable that a disembodied mind could have such experiences. (Thus, #$ExperiencingPerception is a specialization of #$StrictlyMentalEvent.) Note that the property defining this collection is primitive and notoriously difficult to define, except via examples. If an event is not clearly an instance of #$ExperiencingPerception, entertaining a thought (#$Thinking), or #$ExperiencingEmotion, or fully decomposable into a collection of such events, then one should be very careful about making it in an instance of #$StrictlyMentalEvent. be48d9d6-9c29-11b1-9dad-c379636f7270 The 'Mind' is a MentalObject that is the 'location' for the processes of thinking and understanding and feeling in animals. As a non-material thing, it is a vague notion that is defined in various ways, discussed below. Every Mind is 'located' at some Brain; if a Mind is reified, the Brain it is located at must also be reified (and by transitivity, the animal having that Brain). In some usages, the Mind might be considered equivalent to the Brain, but it has traditionally been used to refer to a non-matgerial thing, and will be use dthat way in COSMO. The intimate relation of the Mind to the Brain is indicated by the 'isLocatedAt' restriction. This includes several senses of 'mind' in Random House Webster, but includes the processes that produce emotions as well as rational thinking. RHW sense 1,3, and 4 exclude feelings (sense 2 seems to be more inclusive) and WordNet sense 1 includes feelings, whereas sense 7 appears closer to the COSMO 'Intellect' and to RHW senses 1,3, and 4. In COSMO, Feeling is also located in the Mind. To make the distinction, the type 'Intellect' is used to refer to the *part* of the Mind that is responsible for thinking and reasoning; this is not a physical object, but is used to make sense of statements about what goes on 'in the mind' of a person. RWH 'mind': 1. (in a human or other conscious being) the element, part, substance, or process that reasons, thinks, feels, wills, perceives, judges, etc.: the processes of the human mind. 2. Psychol. the totality of conscious and unconscious mental processes and activities. 3. intellect or understanding, as distinguished from the faculties of feeling and willing; intelligence. 4. a particular instance of the intellect or intelligence, as in a person. This corresponds to sense 1 of 'mind' in WordNet: 1. (121) mind, head, brain, psyche, nous - (that which is responsible for one's thoughts and feelings; the seat of the faculty of reason; 'his mind wandered'; 'I couldn't get his words out of my head') bd58d06f-9c29-11b1-9dad-c379636f7270 mind mind mind1n A Type-level 'location' relation for Events, to specify that a certain type of Event usually occurs at a certain type of location. This is intended as a type-level relation to avoid the need for instantiating or Skolemizing the values, but the domain is both type and instance level so that a restriction using this relation can be inherited by subtypes. For the instance-level location relation for Events, use 'occurredAt'. For object or region locations, see 'isLocatedAt'. The location specified is a GenericLocation: region of space (connected or disconnected) or an object (physical or abstract) . The value of this relation answers the question 'where does it usually happen?'. . A Type-level 'location' relation for Events, to specify that a certain type of Event *always* occurs at a certain type of location. For the instance-level location relation for Events, use 'occurredAt'. A specialization of #$MentalSituation (q.v.) each instance of which has a single agent (normally an #$IndividualAgent) as its subject . A subject in this sense is an agent who has, undergoes, experiences, entertains, or performs the mental situation, as the case may be. Instances of #$MentalSituation-SingleSubject can be mental _events_ (see #$AtLeastPartiallyMentalEvent) such as acts of perception or mental _states_ (see #$MentalState) such as Alice's loving Bob. This collection excludes any mental situations that have more than one subject, such as (perhaps) an event of mutual recognition between two people, as well as any mental situations that have no proper subject at all, such as (perhaps) an event of mass hysteria or a state involving the Jungian collective unconscious . It of course does not exclude a given mental situation merely because it happens to _involve_ more than one agent; Alice's loving Bob involves two people, but Alice is nevertheless its only subject. The two notable specializations of this collection are #$IntentionalMentalSituation and #$StateOfUnconsciousness. c08529b5-9c29-11b1-9dad-c379636f7270 Each InternalState is a PersistentState in which some set of component parts of a System maintain a stable configuration (the properties of the components and relations among them are constant within the limits considered significant) for some interval of time. The system can be a living organism or part of an organism, or some artifact that is designed to have alternative internal states (such as a thermostat). Feelings of cognitive agents are example of InternalState. A 'Feeling' is the Action of experiencing some internal state described as 'a feeling' or, in a more intense form, 'an emotion'. COSMO note: This is not the act of 'feeling something by touching', which is represented by 'Perceiving' and 'TouchingDeliberately'; Linguistically this can be expressed by saying that someone 'is feeling' something or 'has a feeling of' something. To say one 'is feeling sadness' is equivalent to saying on 'is feeling sad', though the adjective is represented as an AttributeValue, and the noun is represented as a 'Feeling'. As an Event, a Feeling has a beginning time and an ending time. Most Feelings have degress of intensity. The logical description of 'Feeling' is still evolving. At present (rev841) a 'feeling' is a MentalState that causes a 'IntentionalAgent' to think in a manner differently from how that person whould think if not experiencing that Feeling. Knowledge can also cause a Person to behave differently, but Knolwedge and Feelings are logically disjoint; Knowledge is a MentalObject, 'Feeling' is an Event' and Objects and Events are disjoint in COSMO. This necessary requirement of 'Feeling' has not been axiomatized as yet, and may require FOL rules. For some detailed thoughts about feelings, see Marvin Minsky's book 'The Emotion Machine'. In Cyc a feeling is called 'FeelingAttribute' and classified very differently, though the intended meaning is the same. In COSMO, feelings and emotions are considered as PersistentStates - events in which some more or less constant mental process that does not involve symbolic thinking is going on. Feelings are vague and only can be labeled in very general terms. All different types of feeling are primitive concepts. feelings include emotions, worries, concerns, elation, many others. NOTE that in COSMO, 'Sensation' (a type of Perception' is also a subtype of 'Feeling'. Cyc: The collection of all emotions and mental feelings. As an emotion/feeling can be experienced in various degrees of intensity, an instance of #$FeelingAttribute is some particular relative amount of happiness, confidence, fear, or whatever. These relative amounts can be measured using the #$GenericValueFunctions (q.v.), such as #$LowAmountFn, #$VeryHighAmountFn, etc. For example, (#$LowAmountFn #$Happiness) is the #$FeelingAttribute of feeling a relatively low amount of happiness. (Note that #$Happiness itself is not an individual feeling attribute but a _collection_ of #$FeelingAttributes - a #$FeelingType (q.v.) - whose instances are the individual attributes of feeling particular relative amounts of happiness; (#$LowAmountFn #$Happiness) is one such instance.) This corresponds to verb sense 1 of 'feel' and noun sense 1 of 'feeling' in WordNet; WN 'feel': 1. (182) feel, experience - (undergo an emotional sensation; 'She felt resentful'; 'He felt regret') WN 'feeling': 1. (50) feeling - (the experiencing of affective and emotional states; 'she had a feeling of euphoria'; 'he had terrible feelings of guilt'; 'I disliked him and the feeling was mutual') bd5882fe-9c29-11b1-9dad-c379636f7270 feel feel1v feeling feeling1n hasFeeling relates a 'IntentionalAgent' to some feeling that the Agent has (at some particular time). A DirectedFeeling is a Feeling that is directed toward, and sometimes caused by, something external to the Agent - an Event or Object. Disgust is a Feeling that may be directed at an Object. Joy may be caused by an Event. 'isDirectedToward' relates a DirectedFeeling to the thing that the Feeling is dorected at. COSMO: A GeopoliticalEntity in COSMO differs from its representation in other ontologies, to stay closer to the linguistic intuitions. Specifically, we say 'government of France', implying that the entity 'France' is not identical to its government. To conform to those intuitions, 'France' and other countries will be GeopoliticalEntities. Therefore a GeopoliticalEntity is something distinct from the organization which forms the government. In COSMO, it is an unusual hybrid, being both a MentalObject and a GenericLocation. Itis neither a PhysicalObject nor an Organization. The Governmen of a GeopoliticalEntity is an Organization. A GeopoliticalEntity in COSMO is a composite Entity which (1) is an agent (2) claims control over some land area of the earth (3) has a government or other ruling organization, which is also an agent (4) is a MentalObject, meaning that it does not have mass and was created by an IntelligentAgent NOTE1: As a GenericLocation, one can say that something isLocatedAt a GeopoliticalEntity even though one means that an object isLocatedAt the region controlled by the GeopoliticalEntity. When an instance of a GeopoliticalEntity is used as an argument that should logically take a region, the implementation should, for consistency, coerce the argument into the corresponding GeopoliticalArea. At present (v0.48) there is no 'disjoint' relation that will cause a logical contradiction, but elaboration of the ontology might cause problems at some point for the use of an Agent as a Location. Alternatives may be worth exploring. NOTE2: if the government performs an action, it is unclear whether it is alway proper to say that a country (or city) performed that action. Therefore the GeopoliticalEntity and its government are treated as distinct agents, though it will probably be true in almost all cases that when one acts, the other can be said to act. NOTE3 that countries have four aspects: (1) the country itself, the GeopoliticalEntity (2) the government of the country (3) the spatial region controlled by the counry (4) the physical objects within the spatial region controlled by the country. (4.1) among the physical objects are those that are part of the land, including the vegetation, and those that are animals or artifactual structures. In normal speech, the distinctions among these are not made because the referents are clear from the context. For this ontology, the distinctions appear necessary. A GeopoliticalEntity usually has an Organization that claims control over the geographical region identified as the area of the GeopoliticalEntity. Usually this will be a government, but occasionally other Organizations such as occupying armies will claim control without claiming to be a formal government. This concept differs from the OpenCyc #$GeopoliticalEntity in that it is strictly an organization, whereas the Cyc concept includes some element of the geographical region itself. The Cyc documentation is reproduced here to clarify the difference: Cyc: A specialization of #$Organization and of #$LegalAgent and of #$GeographicalAgent; instances of this collection control #$GeographicalRegions. Each instance of #$GeopoliticalEntity includes a governing body, but is more than just that governing body. Important subcollections include #$Country, #$IndependentCountry, #$State-Geopolitical, #$City, and #$Province. Instances include #$CityOfTokyoJapan, #$BronxNY-Borough, #$Alaska-State, #$Rwanda, #$Singapore, #$InnerMongolia, #$Somerset-CountyEngland, and #$Taiwan-RepublicOfChina. A central feature of this collection is that geopolitical-entities (indeed, all #$GeographicalAgents) are viewed in two significantly different ways with respect to two different types of geography-related microtheories. In a physical geography microtheory (i.e. #$PhysicalGeographyMt and its submicrotheories), geopolitical-entities are clearly distinguished from the regions they control. (#$TerritoryFn GEO-POL) is used in these contexts to denote the land mass (a #$GeopoliticalRegion) of a given geopolitical-entity GEO-POL. In a dualist geography microtheory (i.e. #$DualistGeopoliticalMt and its submicrotheories), on the other hand, geopolitical-entities are viewed as being _both_ agents _and_ land masses (i.e. #$GeographicalRegions). Thus, there is little need for #$TerritoryFn in the latter sort of context. (Despite their somewhat paradoxical flavor, dualist microtheories arguably allow Cyc to mimic commonsense reasoning about geopolitical entities and regions more closely than do the stricter physicalist microtheories.) There are also some generic geography microtheories (e.g. #$WorldGeographyMt and #$UnitedStatesGeographyMt) which are neutral with respect to the physical and dualist views. Also see the shared-note for this constant. bd58e5da-9c29-11b1-9dad-c379636f7270 A Quantitifier is some numerical or verbal value that specifies or restricts the numerical prefix for a QuantitativeAttributeValue. The simples arre numbers, suc as 3 in the distance measure {3 feet}. A quantifier can also be a range {2 to 4}, such has in{{2 to 4} feet}. A quantifier can also be a number with a variance {3 +- 1}, such has {{3 +- 1} feet}. A quantifier can be verbal, such as 'High', 'Medium' or 'Low' such as {High Intensity}. Quantifiers may have default variances. See: 'hasDefaultVariance' and 'ConfidenceInterval'. A Number is both a Quantity and an Object. This contrasts with PhysicalQuantity, which is a Quantity and an AttributeValue. Pure numbers and physical quantities (numbers plus units of measure) are disjoint entities. The Class of formal relations. There are three kinds of Relation: Predicate, Function, and List. Predicates and Functions both denote sets of ordered n-tuples. The difference between these two Classes is that Predicates cover formula-forming operators, while Functions cover term-forming operators. A List, on the other hand, is a particular ordered n-tuple. NOTE that each instance of Relation is a set of n-tuples, not an individual n-tuple. This type is similar to but more general than rdf:Property in that it includes multiple-arity relations and functions. But this type is not used to specify 'properties' within the OWL formalism, it is here for use when the OWL version of COSMO is converted to a CL-compliant version. For individual instances of reified relations, use 'RelationInstance'. Corresponds to noun sense 1 of 'relation' and part of sense 3 of 'association' in WordNet: 1. (27) relation - (an abstraction belonging to or characteristic of two entities or parts together) WN 'association': 3. (27) association - (the state of being connected together as in memory or imagination; "his association of his father with being beaten was too strong to break") relation relation relation1n association association association3n Called just 'Function' in SUMO, but in COSMO that term is reserved for functions that are actions performed by artifacts or naturally evolved biological systems. Linguistically terms that serve as LogicalFunctions can be of any part of speech. LogicalFunctions in COSMO can be ontology elements that are either vague or context-dependent, and are used to represent interpretations of information that is specified with vague or context-dependent terms. Where possible, the LogicalFunction may be implemented by a procedure that attempts to narrow the range of meanings, but if that is not possible, the default vague meanings (being a set of possible meanings) is used in the representation. NOTE: where *types* rather than instances are to be used as logical functions, (as in QualitativeAttributeValues that are context-sensitive), the types are represented as instances of the metatype '"LogicalFunctionType'. SUMO (Function) ; Function-Denotational (Cyc) A Function in COSMO is used to create new terms (instances or classes) from combinations of other terms. This is somewhat analogous to the use in mathematics and computers,. This notion is not directly supported in OWL, but the Functions are represented in all variant notations of the COSMO, so that they can be translated into notations where functions can be used, and used in that form. SUMO: A Function is a term-forming Relation that maps from a n-tuple of arguments to a range and that associates this n-tuple with at most one range element. Note that the range is a SetOrClass, and each element of the range is an instance of the SetOrClass. OPENCYC 1: MAY 23, 2002\n#$Function-Denotational is the collection of functions the CycL expressions for which can be used to form non-atomic terms (NATs). Specifically, when such a function-denoting expression is appropriately combined with other expressions (i.e. the former is in the 0th argument position and the latter are of the correct number and type) the resulting expression is a new CycL term - a NAT - that may then freely appear as a component in other CycL expressions. The NAT will itself denote the value (if any) of the function denoted by the former expression for the sequence of arguments denoted, respectively, by the latter expressions. For example, #$GovernmentFn is a unary denotational function, and so the CycL constant '#$GovernmentFn' requires one (syntactic) argument (such as the constant '#$France') to form a NAT (in this case, the expression '(#$GovernmentFn #$France)'). This NAT, which denotes the government of France, can in turn serve as a (syntactic) argument in any CycL expression in which (a term for) an instance of #$RegionalGovernment can occur. Alternatively, we could have created a specific new term 'GovernmentOfFrance', asserted that its denotation is an instance of #$RegionalGovernment, and so on. But two related advantages to having NATs in CycL are that they (i) allow for a drastic reduction in the total number of constant terms needed in the CycL vocabulary and (ii) provide a convenient and systematic way to form appropriate new terms as needed out of existing vocabulary (which terms can then inherit from various existing rules and other assertions involving the terms' component expressions). Important subcollections of #$Function-Denotational include #$IndividualDenotingFunction (whose instances always return instances of #$Individual), #$CollectionDenotingFunction, #$SetDenotingFunction, and #$FunctionDenotingFunction (which is itself a subcollection of the first). NATs formed using terms that denote instances of #$FunctionDenotingFunction often denote instances of #$Function-Denotational themselves. Thus, like most other things, denotational functions can be denoted in CycL either by constants (e.g. '#$GovernmentFn') or - although this is less common - by NATs (e.g. '(#$FunctionToArg 2 #$biologicalMother)'). Note that the collection #$Function-Denotational does _not_ include all functions whatsoever. Functions that, given their natures and the nature of the CycL language, could not sensibly be denoted by any NAT-forming CycL expression are not denotational functions. Examples include certain provably-existing exotic mathematical functions, such as (probably) any one-to-one function from the positive integers to the rational numbers. (For a more general collection that does include such functions, and for a more general explication of the notion of function itself, see #$Function-MathematicalObject and its comment). Note also that #$Function-Denotational does not include any of the so-called #$TruthFunctions (q.v.): #$Predicates, #$Quantifiers, or #$LogicalConnectives. For these relations (as construed in CycL) are not really functions at all, even though it can be heuristically useful to think of them as if they were functions from sequences of arguments to truth values. A numericalFunction is a Function that can take a type or a PluralThing and return a PluralThing that has the number of members specified by the function, each member being an instance of that type. Thus the expressions '(two Legs)' or '(two Leg)' both have a value that is a PluralThing consisting of two elements, each of the type 'Leg'. 'hasNumericalValue' relates instances of Number or NumericalFunction to the datatype number value. The value, in the case of some fractions (e.g.1/3), may be an approximation to the accurate value.. . OPENCYC 1: MAY 23, 2002 This collection may be thought of as consisting of all the entities which are localizable within the context of a geography, in the sense that they might plausibly be represented on a map. This includes both #$PartiallyTangible entities like #$GeographicalRegions, and also entities that may be wholly #$Intangible, like territorial borders and boundaries, #$LatitudeLines and #$LongitudeLines, trajectories of missiles and courses of ships, and the #$Equator. A specialization of both #$MultiIndividualAgent and #$GeographicalThing. Each instance of #$GeographicalAgent is a group of people and/or organizations cohesive enough to be treated as an agent (see the collection #$Agent, of which #$GeographicalAgent is a specialization), and which occupies a particular instance of #$GeographicalRegion. Important specializations of #$GeographicalAgent include #$GeopoliticalEntity, #$University, and #$Neighborhood. Note that instances of #$GeographicalAgent are viewed in two significantly different ways with respect to two different types of geography-related microtheories. In a 'physical' geography microtheory (i.e. #$PhysicalGeographyMt and its submicrotheories), geographical agents are clearly distinguished from the regions they occupy. (#$TerritoryFn GEO-AGENT) is used in these contexts to denote the land mass (an instance of #$GeographicalRegion) occupied by a given geographical agent GEO-AGENT. In a 'dualist' geography microtheory (i.e. #$DualistGeopoliticalMt and its submicrotheories), on the other hand, geographical agents are viewed as being _both_ agents _and_ land masses (instances of #$GeographicalRegion). Thus, there is little need for #$TerritoryFn in the latter sort of context. (Despite their somewhat paradoxical flavor, dualist microtheories arguably allow Cyc to mimic commonsense reasoning about geographical agents and regions more closely than do the stricter physical microtheories.) There are also some 'generic' geography microtheories (e.g. #$WorldGeographyMt and #$UnitedStatesGeographyMt) which are neutral with respect to the physical and dualist views. Also see the shared-note for this constant. c1371c02-9c29-11b1-9dad-c379636f7270 A specialization of #$IntelligentAgent. Each instance of #$SocialBeing is an intelligent agent whose status as an agent is acknowledged within some social system, and who is capable of playing certain social roles within that system. Note that in many (but not all) cases, a #$SocialBeing will have certain rights and responsibilities associated with his/her/its status within the relevant social system. For agents who are granted rights and responsibilities under some legal system, see the specialization #$LegalAgent. Other notable specializations of #$SocialBeing are #$Person and #$Organization. bd58a49e-9c29-11b1-9dad-c379636f7270 An Authority is an IntelligentAgent who has created a Rule. Usually, the Rule will be communicated to other Agents to follow (for some purpose), but in a special case an Authority (e.g. an individual person) may create a rule intended only for the Authority itself to follow e.g. a personal code of behavior). The Authority may have authority over a small domain - a parent over his/her children, for example, or the leader of a small group whos emembers consent to follow the rules of the leader. The owner of a property is an Authority for what can be done on that property, and can create a Rule prohibiting actions on that property. 'Authority' is a Role, and an individual Agent does not have to be classified as an Authority, unless the Agent participates in some action or relation that requires an Authority. COSMO note: In COSMO, an Organization differs from its representation in some other ontologies. In COSMO, an Organization is not a group of people, it is a MentalObject, an artifact created by people. the essence of an Organization is that it is organized. It therefore must have an explicit set of organizing principles (a charter or constitution) whether that is written or, as in some small informal organizations, merely retained in the minds of its members. In addition to its charter, an Organization will have one or more lists of associated agents (people or other organizations). There may be more than one list, and the 'members' may not be called members. A complex organization like a corporation may have several lists, e.g. board members, stockholders, corporate officers, employees, even long-term contractors. The relationships of the agents on those lists to the organization and to each other is specified in the charter. Any or all of the lists of associated agents ('members' in simple organizations) may be empty. An Organization can exist without members, and this differs from the specification in SUMO (below). There are some bordeline cases where groups of people have some degree of organizing principle, but no charter (consitution) developed specifically for that group. In those cases, such groups wll be instances of 'GroupOfPeople'. An example is a jury, which is called together by the judicial system, not organized by its members for their own purposes. A pick-up team of basketball or baseball players playing one day and not remaining as a team is also a GroupOfPeople. But stable suborganizations of larger organizations, such as a company or platoon of soldiers, is an Organization and not just a GroupOfPeople. Because an Organization in COSMO is not a physical object, the parts of Cyc or other ontologies that consider Organization as a subtype of group of people (a physical object) will be inconsistent. Some effort will be needed to convert Organizations in other ontologies to its representation in COSMO. NOTE: When an Organization is said to act as an 'Agent', there necessarily must be some physical agent that in fact performs the action. Thus the 'agency' of an organization differs from that of physical agents, as it will be indirect. Organization is also a subtype of 'IntelligentAgent', meaning that it can 'understand' language. This stretches the meaning of what a 'MentalObject' can be, but this representation allows one to express the properties and actions of Organization as agents in much the came way one can talk of individual people. In reality, the actions of an Organization are performed by individual people acting on the Organization's behalf. This nuance should be included in the concept of Organization, but cannot be expressed in OWL. @ToDo1: when the FOL version of COSMO is created, the proper relations of Organization action and some Person's action should be added; when an Organization 'does' something, we should be able to asK what person (or computer program) 'did' that on the Organization's behalf.. NOTE that an Organization is a LegalAgent, which is a Role, therefore needs a RoleFiller. Because an Organization is also an Object, if no more concrete individuals are known who fill the role, the Organization itself can be a RoleFiller. See 'TheBigRedOne' for an example. Every Organization is an 'Authority' because it creates rules, at least for its own members with respect to the organization. SUMO: An Organization is a corporate or similar institution. The members of an Organization typically have a common purpose or function. Note that this class also covers divisions, departments, etc. of organizations. For example, both the Shell Corporation and the accounting department at Shell would both be instances of Organization. Note too that the existence of an Organization is dependent on the existence of at least one member (since Organization is a subclass of Collection). Accordingly, in cases of purely legal organizations, a fictitious member should be assumed. OPENCYC 1: MAY 23, 2002 The collection of all organizations. Each instance of #$Organization is a group whose group-members are instances of #$IntelligentAgent. In each instance of #$Organization, certain relationships and obligations exist between the members of the organization, or between the organization and its members. Instances of #$Organization include both informal and legally constituted organizations. Each instance of #$Organization can undertake projects, enter into agreements, own property, and do other tasks characteristic of agents; consequently, #$Organization is a specialization of the collection #$Agent. Notable specializations of #$Organization include #$LegalGovernmentOrganization, #$CommercialOrganization, and #$GeopoliticalEntity. DOLCE: A socially-constructed person with a complex articulation of tasks, roles and figures. COSMO note: the superfluous parent Type 'Thing' was added so as to make this important Type easily visible by drill-down in the hierarchy. COSMO note: In COSMO, this is a substance, not an object. 'Matter' is a PhysicalSubstance that has rest mass (i.e. any quantity of Matter has rest mass). This excludes electromagnetic waves, which is included in 'PhysicalSubstance' . BFO Definition: A processual entity that is the fiat or bona fide process boundary. BFO Examples: birth, death, the forming of a synapse, the onset of REM sleep, the detaching of a finger in an industrial accident, the final separation of two cells at the end of cell-division, the incision at the beginning of a surgery process_boundary COSMO: this BFO Type is interpreted as an Event, but one that is specifically represented as not a complete Event (i.e. not a 'Process' in BFO). It is unclear under what circumstances designating an Event as 'Fiat' will be useful, but this is included for compatibility. Also: fiat_process_part [BFO] BFO Definition: A processual entity that is part of a process but that does not have bona fide beginnings and endings corresponding to real discontinuities. Examples: chewing during a meal, the middle part of a rainstorm, the worst part of a heart-attack, the most interesting part of Van Gogh's life. COSMO note: In real physical Events, the precise boundaries can be fuzzy, but most Events of interest will have conceptually fairly well-defined beginnings and ends (periods duting which the fluents (attributes) of interest are static), even if those beginnings and ends stretch out over some period of time. We anticipate that most Events will be classified under 'Event' as subtypes of the BFO 'Pocess' which is intended to *not* be a Fiat Process (event). Thus this category may rarely if ever be used for classification. The property of people who are unable to perform some function. This depends on the context of the **specific function** that someone wants to perform, and is not an attribute describing a general lack of ability for multiple functions. Includes adjective senses 2,3, and 4 of 'incompetent' and part of adjective sense 1 of 'useless' in WordNet, applicable only to people: WN 'incompetent': 2. bungling, clumsy, fumbling, incompetent - (showing lack of skill or aptitude; "a bungling workman"; "did a clumsy job"; "his fumbling attempt to put up a shelf") 3. incompetent, unskilled - (not doing a good job; "incompetent at chess") 4. incapable, incompetent, unequal to - (not meeting requirements; "unequal to the demands put upon him") WN 'useless' 1. (7) useless - (having no beneficial use or incapable of functioning usefully; "a kitchen full of useless gadgets"; "she is useless in an emergency") useless useless1adj incompetent incompetent2adj incompetent3adj incompetent4adj A transitive relation that allows the ordering of IntensiveAttributeValues, such as 'good' 'so-do' and 'Poor'. An attribute value that is one of at least two values expressing a range of values that have some linear ordering, and may overlap. The protypical ordering is high-medium-low, but many such ordered valuies can exist. The ordering can be represented in OWL as a list. As of v0.51 rev 685, the values are not thus ordered. @ToDo - create orderings for Intensive values. . Each subtype of 'GoodnessValue' is an EvaluativeAttribute that expresses a judgment regarding the degree to which the thing evaluated is beneficial for the purposes against which it is judged. The subtypes are ranked from most good to least good, with some overlap as: 'TheBest' 'Outstanding' 'Excellent' 'VeryGood' 'Good' 'Fair' 'So-so' 'Mediocre' 'Bad' 'VeryBad' 'Execrable' 'TheWorst' There are many degrees of goodness, and the lesser degrees are not necessarily salient, so this is not a subtype of 'Salient'. This corresponds to adjective sense 1 of 'fair' in WordNet: 1. (190) good - (having desirable or positive qualities especially those suitable for a thing specified; 'good news from the hospital'; 'a good report card'; 'when she was good she was very very good'; 'a good knife is one good for cutting'; 'this stump will make a good picnic table'; 'a good check'; 'a good joke'; 'a good exterior paint'; 'a good secretary'; 'a good dress for the office') A very broad EvaluativeAttribute that expresses a judgment that the thing evaluated is beneficial for the purposes against which it is judged. The purposes may be those of the person doing the judging, or those of someone else or of some group. Each attribution of 'good' must have some purpose as the criterion of 'goodness' In English, 'good' is one of the most 'plastic' adjectives, varying in meaning depending not only on the thing modified, but the context and the speaker. To reduce this ambiguity in an ontology, the function that represents 'Good' will need to make some distinctions. Among the possible distinctions are whether the noun modified is: an artifact (a good car); a role (a good wife); a person (a good boy); a conceptual work (a good book); and others. Because of the speaker-dependence, some residual ambiguity in any use of 'good' is likely. See also Nirenberg and Raskin's 'Ontological Semantics' pp. 239-240 for related discussion. NOTE that the adjective 'good' is represented by the instance of Adjective 'ENG_good' There are many degrees of goodness, and the lesser degrees are not necessarily salient, so this is not a subtype of 'Salient'. This corresponds to adjective sense 1 of 'good in WordNet: 1. (190) good - (having desirable or positive qualities especially those suitable for a thing specified; 'good news from the hospital'; 'a good report card'; 'when she was good she was very very good'; 'a good knife is one good for cutting'; 'this stump will make a good picnic table'; 'a good check'; 'a good joke'; 'a good exterior paint'; 'a good secretary'; 'a good dress for the office') good good good1adj A very broad EvaluativeAttribute that expresses a judgment that the thing evaluated is deleterious for the purposes against which it is judged. The purposes may be those of the person doing the judging, or those of someone else or of some group. Each attribution of 'bad' must have some purpose as the criterion of 'goodness'. It is approximately equivalent to 'undesirable'. This includes ethical as well as pragmatic 'bad'. There are many degrees of badness, and the lesser degrees are not necessarily salient, so this is not a subtype of 'Salient' This corresponds to adjective sense 1 of 'bad' in WordNet: 1. (51) bad - (having undesirable or negative qualities; 'a bad report card'; 'his sloppy appearance made a bad impression'; 'a bad little boy'; 'clothes in bad shape'; 'a bad cut'; 'bad luck'; 'the news was very bad'; 'the reviews were bad'; 'the pay is bad'; 'it was a bad light for reading'; 'the movie was a bad choice') bad bad bad1adj An average degree of Goodness; better than 'Poor' and worse than 'Fair'. An attribute value that expresses a judgment that the thing evaluated is slightly worse than average, but not 'Good'. . An attribute value that expresses a judgment that the thing evaluated is slightly better than average, but not 'Good'. . The property of things (including people and events) that have some value for some purpose for some person. Corresponds to part of adjective sense 1 of 'useless' in WordNet: 1. (16) useful, utile - (being of use or service; "the girl felt motherly and useful"; "a useful job"; "a useful member of society") 2. (1) utilitarian, useful -- (having a useful function; "utilitarian steel tables"), useful useful useful1adj useful2adj The property of things that are considered to have no value as being of practical utility. This is a subtype of 'Worthless', more specific for physical objects that cannot be used.. Corresponds to part of adjective sense 1 of 'useless' in WordNet, not applicable to people: 1. (7) useless - (having no beneficial use or incapable of functioning usefully; 'a kitchen full of useless gadgets'; 'she is useless in an emergency') useless useless useless1adj An instance of #$ObjectType, and a specialization of #$Artifact-Generic. #$Artifact-NonAgentive is the collection of all artifacts that are _not_ agents (i.e., that are _not_ instances of #$Agent-Generic). Specializations of #$Artifact-NonAgentive include #$Bicycle, #$Pants, #$Canal, and #$FoodUtensil. COSMO note: Artifacts are not Agentive in the sense that they are not IntentionalAgents (they can't speak or fporm plans). However, in COSMO an Instrument is an instance of GenericAgent, so the name must not be interpreted as meaning that an Artifact-NonAgentive is not a GenericAgent. COSMO note: this type appears to be intended to represent humans and human groups, so it is placed as a subtype of 'IntelligentAgent'. DOLCE only: 'agentive-social-object' A social object that is assumed to internally represent a plan. Since social objects are dependent on physical ones, it is not trivial to interpret the local sense in which a social object 'internally represents' a plan. For example, an institution can have the plan to promote or regulate some activities, but this is possible by means of the powers conferred to it by some legal system, through its representatives, and that plan has to be executed by means of the physical agents that 'act for' the institution. A CollectiveAgent is a human group or organization, acting as a unit or having some other agent acting in its behalf. OPENCYC 1: MAY 23, 2002 (termed MultiIndividualAgent in Cyc) The collection of all #$Agent-Generics that each consist of other #$Agent-Generics operating together. Usually the constituent agents form some kind of #$Group that itself acts as an #$Agent-Generic. Examples: a #$LegalCorporation, a #$GeographicalAgent, a #$Neighborhood or an #$Industry-Localized. Although it would be a positive exemplar of (#$GroupFn #$Agent), the 'group of people whose first names all start with the letter 'B'' is a negative exemplar of #$MultiIndividualAgent. In almost all contexts, such a group will not act as an #$Agent in any way. It is less cohesive than some of the least cohesive kinds of #$MultiIndividualAgents such as #$CrowdOfPeople. isaSignOf relates a specific Sign or SignType to something to which it refers in some way - perhaps by providing evidence os something, or merely Cyc term: 'AspatialInformationStore' Cyc: A specialization of #$AspatialThing, #$IntangibleIndividual, and #$InformationStore. #$AspatialInformationStore is the collection of all information stores that have no spatial location. Specializations of #$AspatialInformationStore include #$ConceptualWork, #$Microtheory, #$AbstractInformationStructure, and #$FieldOfStudy. Although no instance of #$AspatialInformationStore has a spatial location, some instances can have multiple spatio-temporal embodiments . For example, an instance of #$PropositionalInformationThing may be the content of several concrete documents, such as several instances of #$BookCopy (see #$containsInfoPropositional-IBT); and several distinct events, such as spoken utterances, may have a certain unique #$Proposition as their content (see #$containsInformation). bdff6c64-9c29-11b1-9dad-c379636f7270 A 'DigitalInformationStore' is the PhysicalObject that contains digital information, whether in the memory chips of a computer, on hard isk, on CD-ROM, or in digitally encoded form in paper. This is distinguished from the AbstractDocument that is represented by such physical media, and is also distinguished from ordinary physical texts or documents written on some physical medium in a visually readable form in somme humaninterpretable symbols system, whether alohabetic or iconic.. COSMO note: in COSMO this type is abstract and does not include physical objects. Cyc: A specialization of both #$InformationStore and #$PartiallyIntangibleIndividual. Each instance of #$StructuredInformationSource is an #$InformationStore in which bits of information are represented as related in a systematic way that is easily characterized by some type of formal structure, including spatial or architectural terms (used metaphorically). Examples include: a database organized in fields and values; a spreadsheet organized in rows and columns with entries; an organizational tree diagram with nodes and branches; a topographical map; a document written in HTML (hyper-text markup language). Negative examples include computer programs, poems, and novels. A specialization of both #$MathematicalObject and #$StructuredInformationSource. Each instance of #$Tuple is a complex consisting of one or more indexed (and possibly ordered) components; it might be a single, a pair, a triple, or so on; and the components might be things of any sort whatsoever (see #$memberOfTuple). For example, a specialization of #$Tuple is #$NTupleOfIntervals (q.v.), whose instances are tuples consisting exclusively of #$ScalarIntervals (q.v.); e.g. complex numbers and physical vectors are n-tuple-intervals. Another specialization of #$Tuple is #$List (q.v.), whose instances are ordered. Each tuple has an associated index set : the set of things that serve (via an associated indexing function ) to index or individually represent the tuple's members (see #$tupleIndexSet and #$tupleMemberIndex). If the index set for a given tuple is the set of positive integers (or an initial segment thereof), then the integers' usual ordering serves to order the tuple's components, and the tuple is in fact an _ordered_n-tuple_, i.e. it is a #$List. But in general any set (e.g. the column names in a relational database) may be used to index the components of a tuple. bd58f8d8-9c29-11b1-9dad-c379636f7270 An Object4D is an Object extended in time, making it effectively four-dimensiona. This is the object that is used to represent physical objects in a Perdurantist ontology. See 'Object' and 'PhysicalObject' for further discussion. the type Object4D is disjoint from the type Object3D. An Object4D can have a TimeSlice, but an Object3D cannot. The preferred representation of PhysicalObjects uses the type PhysicalObject and its subtypes, which are subtypes of the more general Object, Object4D and Object3D are included only to enable representation of explicitly perdurantist or endurantist ontologies. An Object3D is an Object *not* extended in time, making it only three-dimensional. In COSMO assertions on what are instances of Object3d in a purely endurantist ontology are equivalent to assertions on the dimension-neutral 'Object'. However, an instance of Object3D cannot also be an instance of TimeSlice. See 'Object' and 'PhysicalObject' for further discussion. The type Object4D is disjoint from the type Object3D. An Object4D can have a TimeSlice, but an Object3D cannot. The preferred representation of PhysicalObjects uses the type PhysicalObject and its subtypes, which are subtypes of the more general Object, not of Object3D, Object4D and Object3D are included only to enable representation of explicitly perdurantist or endurantist ontologies. COSMO: SetOrType is the union of mathematical Sets and intentionally defined Types; 'Type' has a number of synonyms used in different ontologies - in OWL, it is an owl:Class. The 'equivalentClass' definition of this type includes several of these terms. As of rev923 these collections of things have not been axiomatized. Other labels: SetOrCollection[Cyc] SetOrClass[SUMO] 'Type' in COSMO is used to refer to those intensionally-defined groupings called: Class in Ontolingua and Protege; Class in RDF and OWL; Class in SUMO; Collection in OpenCyc; Universal in DOLCE; Property in Ontology Works' IODE system * The Class 'Type' in COSMO is intended to be equivalent to the classes by those names in those other ontologies. * (isaSubtypeOf A B) means that Type A is a subtype of Type B and that all instance of Type A are also instances of Type B. Each 'Sort' is a generic category that includes one or more individuals as instances (examples, exemplars), each of which has some Attribute in common with the others. This represents the informal meaning of 'Sort', also called 'type', 'kind' and 'category', and other words. The more formal meaning as an intensional grouping within a formal clasification system is represented in COSMO by the subtype 'Type'. This corresponds to noun sense 1 of 'kind(2)' in RHW: 1. a class or group of individual objects, people, animals, etc., of the same nature or character, or classified together because they have traits in common; category: Our dog is the same kind as theirs. Corresponds to noun sense 1 of 'type' and sense 1 of 'sort' and sense 1 of 'kind' and sense 2 of 'form' and sense 5 of 'variety' and sense 1 of 'category' and sense 4 of 'class' in WordNet; this includes the sense 4 of 'family' but that sense is also represented by the subtype 'FamilyOfTypes', for sorts that are of a higher level in a classification scheme, with other Sorts at a lower level. 1. (774) type - (a subdivision of a particular kind of thing; "what type of sculpture do you prefer?") WN 'sort': 1. kind (135), sort (65), form (76), variety (0) - (a category of things distinguished by some common characteristic or quality; 'sculpture is a form of art'; 'what kinds of desserts are there?') WN 'category' 1. class (178), category (17), family (22) - (a collection of things sharing a common attribute; 'there are two classes of detergents') type type type1n variety variety variety1n variety5n sort sort sort1n category category1n form form form2n kind kind kind1n class class class1n family family family4n A Sort (type) that is not at the bottom ('leaf') level in a classification scheme, having other Sorts (types) at a lower level. This is exemplified by the biological 'family' of the Linnaean classification scheme. @ToDo: should this be a metaclass? See taxon types. Corresponds to noun sense 6 of 'family' in WordNet; the sense of 'family' in the synset 'class, category, family' is also included, but 'category' and 'class' are included in the parent type 'Sort', which is a broader sense of categorization than this one, which requires some hierarchy of types. NOTE that a biological 'family', as well as other biological categorizations down to 'genus' would be a subtype of this type WN 'family' 6. (7) family - ((biology) a taxonomic group containing one or more genera; 'sharks belong to the fish family') WN 'category' 1. class (178), category (17), family (22) - (a collection of things sharing a common attribute; 'there are two classes of detergents') family family family4n COSMO: a mathematical 'set', the subject of Set Theory. This is not a COSMO 'Group', as Sets have different characteristics from COSMO Groups. Among other things, there is no Group with zero members in it, whereas the empty set {} is a subset of every SetMathematical. Corresponds to noun sense 2 of 'set' in WordNet: 2. (15) set - ((mathematics) an abstract collection of numbers or symbols; 'the set of prime numbers is infinite') set set set2n A 'SetMathematical' which is the 'union' of two or more other sets - a mathematical/set-theoretical concept. Corresponds to noun sense 8 of 'union' in WordNet: 8. union, sum, join - (a set containing all and only the members of two or more given sets; "let C be the union of the sets A and B") union union union8n A PhysicalQuantity is a measurable quantity that has a numerical value qualifying a UnitOfMeasure. In one notation, a mass of 25 grams could be expressed as '{25 grams}' where 'grams' is a function that returns a MassMeasure. PhysicalQuantities are measures of attributes of objects in our real world, and as such are subject to uncertainty, also called 'measurement error'. PhysicalQuantity has an attribute of 'MeasurementUncertainty', which is an optional attribute. When a MeasurementUncertainty is not explicitly provided with an instance of PhysicalQuantity, each implementing system has the option to designate default uncertainties, which may be general or specific to particular categories of measurement. COSMO note: PhysicalQuantities in COSMO are categorized both as quantities, and as AttributeValues. Conceptually, to be viewed as an attribute, some combination of AttributeType and AttributeValue would both be involved (e.g. 'a length of 30 cm'). But at this point (v0.3) it does not appear necessary to represent such quantitative attributes in that explicit manner. This issue remains open for possible future elaboration. SUMO: A PhysicalQuantity is a measure of some quantifiable aspect of the modeled world, such as 'the earth's diameter' (a constant length) and 'the stress in a loaded deformable solid' (a measure of stress, which is a function of three spatial coordinates). All PhysicalQuantities are either ConstantQuantities or FunctionQuantities. Instances of ConstantQuantity are dependent on a UnitOfMeasure, while instances of FunctionQuantity are Functions that map instances of ConstantQuantity to other instances of ConstantQuantity (e.g., TimeDependentQuantities are FunctionQuantities). Although the name and definition of PhysicalQuantity is borrowed from physics, PhysicalQuantities need not be material. Aside from the dimensions of length, time, velocity, etc., nonphysical dimensions such as currency are also possible. Accordingly, amounts of money would be instances of PhysicalQuantity. PhysicalQuantities are distinguished from Numbers by the fact that the former are associated with a dimension of measurement. A QuantitativeAttributeValue is a value for some AttributeType which is expressed in quantitative measures, usually consisting of a quantifier and a unit of measure; however, this general type includes not only the traditional two-element measure ('2 feet', '50 degreesC'), but also measure structures that may include related information, e.g. a 'VaporPressure' is structured as a ListPair containing a temperature (at which a pressure is measured) and the PressureMeasure of the substance at that temperature. For pure pairs of numbers and UnitsOfMeasure, use the subtype 'MeasurableQuantity' or (for traditional physical units) use 'PhysicalQuantity'. Examples (using the ESKIF format) are {10 feet} and {32 degreesF}. In formalisms such as OWL that do not have function terms or higher-arity relations, each such QuantitativeAttributeValue must be constructed as an instance that has relations pointing to the quantifier and the UnitOfMeasure. In OWL, where bare numbers are not allowed as labels for elements, the numbers may be represented using a NamespacePrefix in front of the number, such as N_10 (for 10) (for a range) R_29-30. Each instance of QuantitativeAttributeValue is an OrderedPair, the first element of which is a Quantifier (or QuantifierType) and the second element a UnitOfMeasure. A QuantifierType is allowed as a value in order to represent reified ranges of values. See 'GreaterThanHalf' for an example. When an instance of QuantitativeAttributeValue is represented by creating a reified instance, the UnitOfMeasure and the quantifier are specified by using the relations 'hasUnit' and 'hasQuantifier' to specify , respectively. . If an implementation allows use of functions, a QuantitativeAttributeValue can be represented, without reification in the ontology, as a function term such as {25.6 feet} or {N_25.6 feet}, depending on whether the implementation allows bare numbers in expressions. The NamespacePrefix 'N_' can be used for numbers, and 'R_' can be used for NumberRanges. Corresponds most closely to part of noun sense 1 of 'value'and includes noun sense 2 of 'attribute' in WordNet: 1. (73) value - (a numerical quantity measured or assigned or computed; 'the value assigned was 16 milliseconds') WN noun 'attribute': 2. (1) attribute - (an abstraction belonging to or characteristic of an entity) value value value1n attribute attribute2n A standard of measurement for some dimension. For example, the Meter is a UnitOfMeasure for the dimension of length, as is the Inch. There is no intrinsic property of a UnitOfMeasure that makes it primitive or fundamental; rather, a system of units (e.g. SystemeInternationalUnit) defines a set of orthogonal dimensions and assigns units for each. NOTE that each UnitOfMeasure is represented as a 'QuantitativeAttributeValue' which means that it has a Quantifier and a UnitOfMeasure. This convention means that a unit of measure is just *some* instance of measure that is chosen as the 'unit'. This requires that the Quantifier be the number 1, and the UnitOfmeasure be the unit itself. This may seem a bit peculiar, and might be changed if it seems desirable. Cyc: A specialization of #$ScalarDenotingFunction (q.v.). Each instance of #$UnitOfMeasure is a function that takes one or two numbers or other #$NumericIntervals as arguments, and returns as value a #$MeasurableQuantity (q.v.), such as a #$Distance or a #$Speed or a #$Volume. If a unit of measure is applied to one number (see #$Number-General) the result is a precise quantity that is a #$ScalarPointValue; if applied to two (different) numbers -- or to one (or two) #$ProperIntervalOnNumberLine(s) -- the result is a closed-interval quantity that is a #$ScalarProperInterval. For example, (#$Meter 5) is the distance five meters and (#$Meter 5 10) is the distance five to ten meters (inclusive) . (A partial exception to the above is the unit-of-measure #$Unity (q.v.), which always returns a #$NumericInterval rather than a #$MeasurableQuantity.) Specializations of #$UnitOfMeasure grouped by what they measure include #$UnitOfTime, #$UnitOfSpeed, and #$UnitOfVolume. Other specializations are #$OneDimensionalUnitOfMeasure, #$MultiDimensionalUnitOfMeasure, #$UnitOfMeasureWithPrefix and #$UnitOfMeasureNoPrefix. Corresponds to noun sense 1 of 'unit' in WordNet: 1. (34) unit of measurement, unit - (any division of quantity accepted as a standard of measurement or exchange; 'the dollar is the United States unit of currency'; 'a unit of wheat is a bushel'; 'change per unit volume') bd5880aa-9c29-11b1-9dad-c379636f7270 unit unit unit1n The UnitOfMeasure for a number, which may be a limit (e.g. > 3, lessThan 5). The UnitOfMeasure that measures the hour(s) within one day, or within a twelve-hour period of Am or PM. Considered as an adverb in WordNet: . (16) o'clock - (according to the clock; 'it's three o'clock in Tokyo now') o'clock o'clock o'clock1adv hasValue relates an Attribute to the Value of the attribute. The value may be qualitative (Flexible) or quantitative {10 feet}. NOTE that AttributeValues can take the form of either instances of AttributeValue or *subtypes* of AttributeValue, which are instances of AttributevalueType. The latter are used to allow for subclassing of AttributeValues, to allow inferring that having one value also implies having its parent AttributeValues (up to the least specific value). hasUnit relates an Attribute or QuantitativeAttributeValue to the UnitOfMeasure in which the value is expressed. For a length, for example, this might be meters, feet, miles, etc.. This relation may be used to relate quantitativeAttributes directly to their UnitOfMeasure (if they are quantiative attributes), or to relate the QuantitativeAttributeValue to its UnitOfMeasure. The direct relations allows one to specify QuantitativeAttributeValues without reifying the AttributeValue in addition to the Attribute. hasMeasure relates a QuantitativeAttributeValue to the AttributeType that the QuantitativeAttributeValue is a measure of. A LengthMeasure, for example, could be a measure of a distance, a diameter, a girth, oany other property or relation expressed in units of distance. COSMO note: A MeasurableQuantity is some attribute of which a number (or other quantifier) is a part, and also has a unit of measure. This is disjoint from pure numbers. Cyc: A specialization of #$Quantity (q.v.). This is the collection of quantities that have a numeric component and could actually be used to measure something, as opposed to (say) merely ranking it on a scale. Arithmetic operations (such as addition and multiplication) can be performed on measurable quantities, as they can on purely numeric scalars (see #$NumericInterval). Specializations of #$MeasurableQuantity include #$Distance, #$Temperature, #$Mass, and #$Time-Quantity. Other, broader specializations are #$OneDimensionalQuantity, #$TwoDimensionalQuantity, and #$ThreeDimensionalQuantity. Any quantity (that at least in principle could be) returned by a #$UnitOfMeasure (q.v.) function is a measurable quantity. In CycL, particular measurable quantities are usually represented as the result of applying a unit-of-measure function to a real number or pair of reals. For example, (#$Meter 5) is the distance 5 meters. Corresponds to noun sense 3 of 'measure', sense 3 of 'amount' and sense 1 of 'quantity' in WordNet: 3. (7) measure, quantity, amount - (how much there is of something that you can quantify) afed8d1a-9eec-41d8-9da0-be55cb160c1a measure measure measure3n quantity quantity quantity1n amount amount amount3n hasQuantifier relates a QuantitativeAttributeValue to the quantifier that indicates how many units large the value is. Any Number that can be expressed as a (possibly infinite) decimal, i.e. any Number that has a position on the number line. A NumberRange is a Quantifier that is mostly used with units of measure, to express the idea that a measure falls within that range. Instances of NumberRange can be represented in COSMO by using the NamespacePrefix 'R_' in front of the range, which is the lower number and higher number separated by a hyphen. Thus the NumberRange 25 to 30 can be reified by creating an instance of NumberRange labeled 'R_25-30'. Using this formalism, a measure that is within the range of 30 to 32 meters could be represented by the function term (in ESKIF) '{R_25-30 meters)'. In implementations that allow the use of bare numbers in an expression, two numbers separated by a hyphen (e.g. '25-30') might be interpreted as a range, rather than as a number derived by subtraction Programs interpreting such a NumberRange may use it as required for the local application. A NumberRange in which the lower number of the range is not included in the range, but the upper number is. 'hasLowerLimit' relates an instance of 'Number' or 'NumberRange' to a datatype number, which is below or equal to the lowest possible value for the RealNumber. Whether the limit is inclusive or exclusive depends on the context in which it is used. This is a way to relate reified instances of number in the ontology to datatype numbers. See, for example,'GreaterThanHalf'. 'hasUpperLimit' relates an instance of 'Number' or 'NumberRange' to a datatype number, which is above or equal to the highest possible value for the RealNumber. Whether the limit is inclusive or exclusive depends on the context in which it is used. This is a way to relate reified instances of number in the ontology to datatype numbers. Any Number in some range that is greater than the specified value, related by the 'hasLowerLimit' relation. The range of permitted values does not include the limit. The implementation will have to interpret these numbers in whatever manner less-than and greater-than numbers are interpreted. 'GreaterThanHalf' is the type including all RealNumbers that have a numerical value greater than 0.5. 0.5 Any Number in some range that is less than the specified value, related by the 'hasUpperLimit' relation. The range of permitted values does not include the limit. The implementation will have to interpret these numbers in whatever manner less-than and greater-than numbers are interpreted. Any RealNumber that is not also a RationalNumber. A RealNumber that is greater than or equal to zero. A RealNumber that is less than zero. A RealNumber that is greater than zero. Any RealNumber that is the product of dividing two Integers. To represent a fraction in the name of a RationalNumber, the prefix 'N_' should be used, and to separate the two integers, an underscore can be used (to stay within the OWL naming conventions). Thus three-halves would be named 'N_3_2',and two-thirds would be 'N_2_3'. However, percents, which are also rational numbers, will have a different naming scheme. hasSynonym is used to point to AbstractStrings that can serve as a synonym for the base entity (type or instance), in some context. This relation points to an instance of Synonym, and that instance can specify the context in which it is a synonym for that word. Because a single word can be a synonym of multiple terms, the structure of the 'Synonym' entity includes not only the String expression of the synonymous term, but also the context in which it is a synonym. Among the contexts, databases and other knowledge models are included. 0.5 0.333333333333333 One-Quarter, the RationalNumber that can be represented as 1/4 or 0.25. See also 'QuarterPart'. Corresponds to part of noun sense 1 of 'quarter' in WordNet (this is the number sense; for the part sense, use 'QuarterPart': 1. (7) one-fourth, fourth, quarter, fourth part, twenty-five percent, quartern - (one of four equal parts; "a quarter of a pound") 0.25 quarter quarter quarter1n 0.20 0.6666666666666666 1.5 2.5 COSMO note: this is not a pure ratio, but a MeasurableQuantity that is a ratio of other MeasurableQuantities. It is represented, as are other MeasurableQuantities, as a Quantifier and a unit. In this case the quantifier is a ratio and therefore a RationalNumber, and the unit is expressed as a ratio of other units. Cyc: A specialization of #$MultiDimensionalQuantity (q.v.). Each instance of #$RatioQuantity is a quantity that is derivable (via #$QuotientFn) as a ratio of other quantities. For example, (#$MilesPerHour 65) is a ratio quantity obtainable by dividing (#$Mile 65) by (#$HoursDuration 1); and (#$PoundsPerSquareInch 50) is equal to (#$QuotientFn (#$Pound-UnitOfForce 50) (#$SquaredFn (#$Inch 1))) . Ratio quantities are used for measuring a difference or change in one quantity against a (usually incremental) difference or change in another quantity. When the later quantity is a #$Time-Quantity (as in the first example above), the ratio quantity is an instance of the specialization #$Rate. See also #$PerFn. 845b6f34-6aa7-41d7-8bba-c3bd93f1a360 A DimensionlessRatio is a ratio of quantities in which the dimension of the numerator is the same as the dimension of the denominator, resulting in a dimensionless number. However, this type is for ratios of measures, and the resulting number is not a pure number, but a measure with the dimension 'dimensionless'. The Quantifier is a RationalNumber. Each DimensionlessRatio can be labeled by using the 'RTO_' namespace prefix, and an underscore between the numerator and denominator; see 'RationalNumber' for more similar treatment of the labels for RationalNumbers. Thus a DimensionlessRatio of one-third could be labeled 'RTO_1_3'. A RationalNumber that expresses a ratio of one quantity to another, multiplied by one hundred. This is distinguished from a pure number only in that it has the dimension 'percent'. For its use to express distributions, see 'PercentageAttribute'. A negative or nonnegative whole number. An Integer that is greater than or equal to zero. 0.0 1 100 5000 760 'isWithinAnOrderOfMagnitudeOf' relates one numerical quantity (dimensionless number or ConstantQuantity) to another and asserts that the ratio r of the numerical values of the two fall in the range 10 > r > 0.1 Thus: {{3 meters} isWithinAnOrderOfMagnitudeOf {10 meters}}. 'isWithinaFactorOfTwoOf' relates one numerical quantity (dimensionless Number or ConstantQuantity) to another and asserts that the ratio r of the numerical values of the two fall in the range 2 > r > 0.5 Thus: {{3 meters} isWithinaFactorOfTwoOf {2 meters}}. 'isApproximatelyEqualTo' relates one numerical quantity (dimensionless Number or ConstantQuantity) to another and asserts that the ratio r of the numerical values of the two fall in the range 1.5 > r > 0.6667. Thus: {{4 meters} isApproximatelyEqualTo {3 meters}}. 'isAlmostTheSameAs' relates one numerical quantity (dimensionless Number or ConstantQuantity) to another and asserts that the ratio r of the numerical values of the two fall in the range 1.11111 > r > 0.9; i.e. this is for quantities that are different by less than ten per cent. Thus: {{10 meters} isApproximatelyEqualTo 11 meters}}. COSMO note: the quantities related by this relation must be instances of types in the ontology, not datatype quantities. Cyc: A #$NumericComparisonPredicate that is a generalization of the mathematical less-than ( < ) relation to #$ScalarIntervals (q.v.) of all sorts, including quantitative intervals as well as point values (see #$ScalarPointValue). (#$lessThan VALUE1 VALUE2) means that VALUE1 is less than VALUE2 with respect to some scale that they are both on. More precisely, there is some #$TotallyOrderedScalarIntervalType SCALE that both VALUE1 and VALUE2 are instances of and either (i) SCALE is a specialization of #$NumericValue (e.g. #$RealNumber) and the maximum (see #$maxQuantValue) of VALUE1 is less than the minimum (see #$minQuantValue) of VALUE2 or (ii) (#$followingValueOnScale VALUE1 VALUE2 SCALE) holds. Note that #$lessThan is an #$ELRelation (q.v.), and the above sentence would actually canonicalize to (#$greaterThan VALUE2 VALUE1). bd5880b1-9c29-11b1-9dad-c379636f7270 A #$NumericComparisonPredicate that is a generalization of the mathematical less-than-or-equal-to ( <= ) relation to #$ScalarIntervals (q.v.) of all sorts, including quantitative intervals as well as point values (see #$ScalarPointValue). (#$lessThanOrEqualTo VALUE1 VALUE2) means that VALUE1 is less than or equal to VALUE2 with respect to some scale that they are both on. More precisely, there is some #$TotallyOrderedScalarIntervalType SCALE that both VALUE1 and VALUE2 are instances of and either (i) SCALE is a specialization of #$NumericValue (e.g. #$RealNumber) and the maximum (see #$maxQuantValue) of VALUE1 is less than or equal to the minimum (see #$minQuantValue) of VALUE2, (ii) (#$followingValueOnScale VALUE1 VALUE2 SCALE) holds, or (iii) (#$equals VALUE1 VALUE2) holds. Note that #$lessThanOrEqualTo is an #$ELRelation (q.v.), and the above sentence would actually canonicalize to (#$greaterThanOrEqualTo VALUE2 VALUE1). bd5880b0-9c29-11b1-9dad-c379636f7270 A #$NumericComparisonPredicate (q.v.) that is a generalization of the mathematical greater-than-or equal-to (>=;) relation to #$ScalarIntervals (q.v.) of all sorts, including quantitative intervals (see #$NumericInterval and #$Quantity) as well as point values (see #$ScalarPointValue). (#$greaterThanOrEqualTo VALUE1 VALUE2) means that VALUE1 is greater than or equal to VALUE2 with respect to some scale that they are both on. More precisely, there is some #$TotallyOrderedScalarIntervalType SCALE; that both VALUE1; and VALUE2; are instances of and either (i) SCALE; is a specialization of #$NumericInterval (e.g. #$RealNumber) and the minimum (see #$minQuantValue) of VALUE1; is greater than or equal to the maximum (see #$maxQuantValue) of VALUE2;, (ii) (#$followingValueOnScale VALUE2 VALUE1 SCALE); holds, or (iii) (#$equals VALUE1 VALUE2); holds. See also #$greaterThan and #$lessThanOrEqualTo. bd5880af-9c29-11b1-9dad-c379636f7270 A #$NumericComparisonPredicate that is a generalization of the mathematical greater-than ( > ) relation to #$ScalarIntervals (q.v.) of all sorts, including quantitative intervals (see #$NumericInterval and #$MeasurableQuantity) as well as point values (see #$ScalarPointValue). (#$greaterThan VALUE1 VALUE2); means that VALUE1; is greater than VALUE2; with respect to some scale that they are both on. More precisely, there is some #$TotallyOrderedScalarIntervalType SCALE that both VALUE1; and VALUE2; are instances of and either (i) SCALE; is a specialization of #$NumericInterval (e.g. #$RealNumber) and the minimum (see #$minQuantValue) of VALUE1; is greater than the maximum (see #$maxQuantValue) of VALUE2; or (ii) (#$followingValueOnScale VALUE2 VALUE1 SCALE); holds. bd5880b2-9c29-11b1-9dad-c379636f7270 2 Corresponds to adjective sense 1 of 'two' in WordNet: 1. (511) two, 2, ii -- (being one more than one; "he received two messages"). two two two1adj 3 Corresponds to adjective sense 1 of 'three' in WordNet: 1. (222) three, 3, iii -- (being one more than two) three three three1adj 4 Corresponds to adjective sense 1 of 'four' in WordNet: 1. (131) four, 4, iv - (being one more than three) four four four1adj 5 Corresponds to adjective sense 1 of 'five' in WordNet: 1. (103) five, 5, v -- (being one more than four) five five five1adj 6 Corresponds to adjective sense 1 of 'six' in WordNet: 1. (77) six, 6, vi, half dozen, half-dozen - (denoting a quantity consisting of six items or units) six six six1adj 7 Corresponds to adjective sense 1 of 'seven' in WordNet: 1. (33) seven, 7, vii -- (being one more than six) seven seven seven1adj 8 Corresponds to adjective sense 1 of 'eight' in WordNet: 1. (37) eight, 8, viii - (being one more than seven) eight eight eight1adj 9 Corresponds to adjective sense 1 of 'nine' in WordNet: 1. (21) nine, 9, ix - (denoting a quantity consisting of one more than eight and one less than ten) nine nine nine1adj 10 Corresponds to adjective sense 1 of 'ten' in WordNet: 1. (71) ten, 10, x -- (being one more than nine) ten ten1adj 11 Corresponds to adjective sense 1 of 'eleven' in WordNet: 1. (12) eleven, 11, xi -- (being one more than ten) eleven eleven1adj 12 Corresponds to adjective sense 1 of 'twelve' in WordNet: 1. (20) twelve, 12, xii, dozen - (denoting a quantity consisting of 12 items or units) twelve twelve1adj A PositiveRealNumber that is a fraction greater than or equal to zero, and less than or equal to 1. This is useful for expressing probabilities. An Integer that is less than zero. 'Money' in COSMO is treated as a GenericSubstance, and specific quantitities of Money are treated as Objects composed of Money. Money can take many forms, but it is considered an Asset because if owned, it can always be given away, so someone who keeps money must consider it of positive value. It may be represented by a physical token such as a coin or bill of currency, or merely be an electronic record in a financial institution. Whatever form it takes, if you have it, it allows you to do things you might not be able to do without it. It is a ValuableThing. 'Money' is distinct from 'MoneyObject'; the latter is some specific quantity of Money, whereas Money is somewhat more abstract, like the substance.of which a MoneyObject is made. In COSMO, 'Money' is generic and can be used in the collective sense; but its subtype 'CurrencyObject' is a type whose instances are individual PhysicalObjects. NOTE that we assert that it money is 'Pleasant'. This is not a necessary characteristic for all Assets, but for fungible ones like money, it is more fun to have it than not have it. Corresponds to noun sense 1 of 'money' in WordNet: 1. (364) money - (the most common medium of exchange; functions as legal tender; 'we tried to collect the money he owed us') bd58d8e4-9c29-11b1-9dad-c379636f7270 money money money1n The collection of all #$Resources consists in things that are useful, i.e. things that are either needed or helpful for carrying out a task or running a system. Resources include financial resources, energy resources, raw materials, information, infra-structure, the ability to perform actions (an AttributeValue) and so on. Certain types of people may qualify as 'Resource' - employees, slaves, contractors, etc. But 'Resource' is a Role, and not all people are Resources - it depends on the situation. The inclusion of 'Capability' as a specialization of 'Resource' conforms to sense 6 of 'resource' in the Random House Webster: '6. capability in dealing with a situation or in meeting difficulties: a woman of resource.' Important NOTE: A Resource does not necessarily have to have a net positive value, it merely needs to be useful in some situation. Some things that may count as resources may be, depending on the situation, a 'white elephant', i.e. the cost of ownership may exceed the monetary value of its practical utility. For resources that have a net positive value, the subtype 'Asset' is used. c0c575fd-9c29-11b1-9dad-c379636f7270 '(#$ableToAffect AGENT THING)'; means that AGENT is capable of causing some change in THING. This does not imply that AGENT ever actually does cause any change in THING, but that THING is within AGENT's 'zone of influence'. For instance, I am able to affect the ceiling panel above my head, even though I've never done anything to it. In contrast, I cannot affect the moon. This is an inherently vague notion, since one's ability to influence objects tends to diminish as they grow larger--or smaller--and farther away. However, it's an important common sense concept, since we must learn what we can and cannot affect in order to understand our capabilities and limitations and plan actions accordingly. c038990d-9c29-11b1-9dad-c379636f7270 COSMO note: the notion of 'ownership' in COSMO is broadened to include ownership by animals who have created and may modify artifacts. This may create problems in practice - @ToDo see how the 'owner' of a 'Device' is interpreted by applications. Perhaps a narrower subtype will be needed ('LegalOwnership'?) This predicate relates agents to things of which they have part or whole ownership. (#$hasOwnershipIn AGENT THING) means that AGENT owns a part (or the whole) of THING. For example, Ted Turner #$hasOwnershipIn Atlanta's Olympic Stadium; there may be other owners. See also #$legalOwnerOf and #$ownsShare. c10af144-9c29-11b1-9dad-c379636f7270 COSMO note: the notion of 'ownership' in COSMO is broadened to include ownership by animals who have created artifacts. COSMO note: there is an issue involved in deciding whether a minor living with parents can actually own thing in his/her own right, if it is not earned by the child. In COSMO we will assume that a child *can* own things. Therefore this sense of ownership may not be legally enforceable. Cyc: A predicate that relates #$SocialBeings to things that they own. (#$owns AGENT OBJECT) means that AGENT has full ownership of OBJECT. Thus, AGENT enjoys #$FullUseRights (q.v.) over OBJECT. OBJECT might be a physical artifact, a parcel of land, an animal, a piece of intellectual property , or anything else that can be owned. Note that, although ownership often involves control, #$owns is _not_ a specialization of #$controls, as there are many exceptions. For example, when the owner of a building leases it to someone, the former gives up almost all control over the buiding for the term of the lease. This corresponds to verb sense 1 (the only sense)of 'own' and verb sense 4 of 'have' and noun sense 1 of 'ownership'; the notion of 'belonging to' is repreesnted by the inverse 'isOwnedBy'. 1. (47) own, have, possess - (have ownership or possession of; 'He owns three houses in Florida'; 'How many cars does she have?') WN 'ownership' 1. (4) ownership - (the relation of an owner to the thing possessed; possession with the right to transfer possession to others) bd58d753-9c29-11b1-9dad-c379636f7270 own own own1v have have have4v ownership ownership1n isOwnedBy is the inverse of 'owns'. Since 'owns' implies full ownership (which may be exercised by a group of people), this relation is functional. Corresponds to verb sense 1 of 'belomg' in WordNet: 1. (10) belong -- (be owned by; be in the possession of; "This book belongs to me") belong belong belong1v COSMO note: in Cyc named 'assets'. Cyc comment: Assets are economic resources (things of value) owned by an agent which are expected to benefit future operations. NOTE that hasAssets is a subproperty of 'owns' and therefore must point to something fully owned by the agent. If a LegalAgent has only a part ownership in something, that part ownership must be reified as an entity in itself in order to use this relation to point to that part ownership as an asset. This corresponds to part of verb sense 1 (the only sense)of 'own' and verb sense 4 of 'have' in WordNet: 1. (47) own, have, possess - (have ownership or possession of; 'He owns three houses in Florida'; 'How many cars does she have?') WN 'have' bd58bef9-9c29-11b1-9dad-c379636f7270 own own own1v have have have4v LegalAgent is a Role played in the legal system by some entity - a Person, GroupOfPeople, Organization, or any legal entity recognized as an Agent by some legal system. Each instance of LegalEntity persists only so long as it is involved in some kind of legal transaction; in the case of a contract (e.g. employment) the legal role may persist for some time. @ToDo: this necessitates finding a RoleFiller for organizations - not quite obvious that this should be so. Should: (1) LegalAgent not be a Role? or (2) Role not need a filler? or (3) Organization not be a LegalAgent?? An Agent perhaps is only a Role when it is an individual Person?? In FOL one cold specify that Organizations are excluded form the 'filler' constraint. Linguistically, the role names and fillers of roles may be used interchangeably, in describing actions, though it is the filler of the role that actually performs the action. The optimal way to represent these intimate relations is not yet decided, but for the present (v0.63), the relation 'hasRoleFiller' must be specified when describing every LegalAgent, so that the actual entity doing the action will be recognized. OPENCYC 1: MAY 23, 2002 A specialization of #$Agent. Each instance of #$LegalAgent is an agent who has some status in a particular legal system. At the very least, such an agent is recognized by some legal authority as having some kinds of rights and/or responsibilities as an agent (e.g., #$citizens of Germany), or as being subject to certain restrictions and penalties (e.g., a company that has been blacklisted by Iraq). Thus, instances of #$LegalAgent include agents that may have property rights, may be taxed, may have a government identification number, may be sued, may have an address, or may buy or sell. Note that membership in this collection is very much dependent upon context. In some societies, only adult males and various kinds of state-run organizations would be included in #$LegalAgent. The estate of a deceased person. This is an unusual entity which is both Property and a IntelligentAgent. As an approximation we can consider it as Property which is owned by itself, temporarily, until liquidated. @TODO: This still needs to be axiomatized (v 0.44), as well as its relation to the DeadPerson who owned it, and the Executor who manages it. In Cyc called 'Estate-LegalEntity': Cyc: An estate is a collection of property managed by an executor, a #$LegalAgent. bd61ade1-9c29-11b1-9dad-c379636f7270 A GroupOfPeople is a Group of which each component element is a Person. GroupOfPeople is a category that may be used for convenience in talking about groups of people with some common characteristic. This is PhysicalObject with mass and location, etc. It is disjoint with Organization, which is a MentalObject; however, the common reference to an organization as the sum of its members is captured by the type 'OrganizationMembership', which includes as a subtype the group of people that form the membership of an organization. A GroupOfPeople is potentially an Agent, but in COSMO we have a subtype 'MultiPersonAgent' which is used to represent a GroupOfPeople that has actually acted as an agent. The difference of MultiPersonAgent from GroupOfPeople is subtle - This category should be used when the agency aspect of the GroupOfPeople is salient in the discourse. Because a 'GroupOfPeople' can be quite transitory - the people in a particular elevator at a particular time - they need not be viewed as an agent. When they have in fact acted in concert, they become a 'CollectiveAgent'. A Group may be defined extensionally (by enumeration) or intensionally (e.g. all the people in a building at some time). COSMO: any thing that is owned - an object, right, substance, land. Cyc: This is the collection of all things which are owned. Members of this collection may be tangible, such as real estate, or intangible, such as the rights to produce a movie based on a particular book. Ownership has complex characteristics - not yet detailed. Corresponds to noun sense 2 of 'property' in WordNet: 2. (178) property, belongings, holding, material possession - (something owned; any tangible or intangible possession that is owned by someone; "that hat is my property"; "he is a man of property";) c14442f3-9c29-11b1-9dad-c379636f7270 property property property2n An Asset is a Resource that has a net positive value. The value does not have to be monetary, but should be sufficiently concrete to leave little doubt that the person who owns the Asset actually wants to own it, and does not simply accept its ownership as an obligation. Anything that can be readily sold for money is an Asset. In the context of performing a task, any Resource that is available for use and can help to accomplish that task is an Asset. Therefore Asset, like its parent Type 'Resource' is a Role and an individual entity can be an Asset in one situation and a liability in another. Note that a military 'asset' is classified as 'MilitaryAsset' directly under 'Resource'. c0c575fd-9c29-11b1-9dad-c379636f7270 'containsAbstractSubstance' is a specialized relation that relates objects (physical or abstract) to some abstract substance(s) which form some part of the composition of the object or region. An 'abstract substance' is an absrtactkion of the notion of a PhysicalSubstance, and is a subtype of GenericSubstance. One example is 'Money', considered in COSMO as a substance that makes up the abstract component of a MoneyObject. Other absract substances can be imagined, that may compoose abstract objects, but as of rev 839 abstract substances other than Money are not defined. . Each 'MoneyObject' is an Object that represents some quantity of money. It may be physical, such as a coin or paper currency, or a check, or abstract, such as a bank account or a share of stock; in general, if it is not actually currency it should be easily convertible to currency. It may be a single object such as a coin, or a collection of objects such as the bills in a wallet. A MoneyObject is something that can be spent in a 'Spending' event. Each instance of this type can be considered as a 'quantity of money' in the same way that a HomogeneousObject is some quantity of a PhysicalSubstance. However, this is a mixture of physical and abstract types, useful because of the many ways that money can be represented. The actual quantity of money that any given MoneyObject represents is related to the object by the relation 'hasMonetaryValue' . NOTE that the monetary value can vary with time,as with a share of stock; even a piece of currency, that may have a fixed value in that currency for some time, may change its value relative to other currencies when the currency changes. Old rubles and new rubles are both called 'ruble' but are actually different currencies. NOTE also that some things that are TenderObjects, such as 'CreditCard', are not MoneyObjects because their value is not in the object itself, but in the account on which it draws; the account is the MoneyObject. Each MoneyMeasure is a measure of a quantity of money in some currency; it is an OrderedPair consisting of a quantifier and a CurrencyUnit. 'hasMonetaryValue' specifies the quantity of money in some currency that is the monetary value of some MoneyObject. A 'MoneyObject' is any amount of money in any currency. This type is not a subtype of Object, but can behave like an Object in transfers of Money; it is one of the domains of 'hadObjectMoved'. Corresponds to noun sense 1 of 'sum' and sense 1 of 'sum_of_money'in WordNet: 1. (12) sum, sum of money, amount, amount of money - (a quantity of money; "he borrowed a large sum"; "the amount he had in cash was insufficient") sum sum sum1n sum_of_money sum_of_money1n COSMO note: this is the base, minimal level of pleasant feeling. Other more intense forms of pleasant Feeling such as 'Enjoyment' are also represented in COSMO. This is the Feeling; things that casue this feeling are represented in COSMO as 'PleasantThing'. NOTE that COSMO distinguishes between the Feeling of Pleasure, which is mostly mental, and the Sensation of a PleasurableSensation, which arises from the body and affects the feelings. Cyc ('Pleasure-Feeling'): Agreeable feeling of gratification or satisfaction. Corresponds to noun sense 1 of 'pleasure' in WordNet: 1. (21) pleasure, pleasance - (a fundamental feeling that is hard to define but that people desire to experience; 'he was tingling with pleasure) bd590bf5-9c29-11b1-9dad-c379636f7270 pleasure pleasure pleasure1n An attribute of things - events, processes, or objects - that in normal circumstances can be expected to give pleasure to people who experience it (Events) or possess it (things). For people who are pleasant in behavior use 'Nice''. This provides one method to mark those Assets that are especially worthy of attention. Corresponds to adjective sense 1 of 'pleasant' 2 and part of sense 1 of 'nice' in WordNet: WN 'pleasant': 1. (9) pleasant - (affording pleasure; being in harmony with your taste or likings; 'a pleasant person to be around'; 'we had a pleasant evening together'; 'a pleasant scene'; 'pleasant sensations') WN 'nice': 1. (23) nice - (pleasant or pleasing or agreeable in nature or appearance; 'what a nice fellow you are and we all thought you so nasty' - George Meredith; 'nice manners'; 'a nice dress'; 'a nice face'; 'a nice day'; 'had a nice time at the party'; 'the corn and tomatoes are nice today') pleasant pleasant pleasant1adj nice nice nice1adj An attribute of things - events, processes, or objects - that in some way interfere or intrude on a person's activities, or are inherently unpleasant. This is an EvaluativeAttribute, relative to the desires and intentions of the person characterizing the thing as 'unwanted'. e.g. 'she attracted unwanted attention from the men'. Things that are actually unpleasant are characterized by the subtype 'Unpleasant' in COSMO. Corresponds to part of sense 2 of 'unwanted' in WordNet: WN 'unwanted' 2. unwanted - (interfering; 'unwanted shadows distort the picture'; 'removed the unwanted vegetation') unwanted unwanted2adj An attribute of things - events, processes, or objects - that in normal circumstances can be expected to produce a reaction of 'Displeasure' in most people who experience it (Events) or perceive it (things). This is an attribute for things that actually produce a reaction of displeasure, not for those things that one simply does not like. The sense of 'disagreeable' referring to a *trait* of people who act unsociably is *not* included here, but the behavior itself, if it offends other people, would be characterized by this AttributeValue, 'Unpleasant' Corresponds to the single adjective sense of 'unpleasant', and to part of senses 1 and 2 of 'disagreeable' in WordNet: 1. (6) unpleasant - (disagreeable to the senses, to the mind, or feelings ; 'an unpleasant personality'; 'unpleasant repercussions'; 'unpleasant odors') WN 'disagreeable' 1. disagreeable - (not to your liking; 'a most disagreeable journey'; 'a disagreeable old man'; 'in a disagreeable mood') 2. disagreeable, unsympathetic - (not agreeing with your tastes or expectations; 'found the task disagreeable and decided to abandon it'; 'a job temperamentally unsympathetic to him') . unpleasant unpleasant unpleasant1adj disagreeable disagreeable1adj disagreeable2adj A GoodThing is a generic class that can be used to label certain types of objects or situations as desirable, and therefore something to pay attention to, and perhaps to try to otain or try to do or get done. An attribute of things - usually events, objects, or situations, but also of other types (e.g. time of occurence of some repeating event) - that are **not unusual** and too common (at least for its type) to be considered notable; synonyms: everyday, common, ordinary, unremarkable; for events, 'routine' and 'usual' would convey a similar meaning - see the subtype 'Routine'. Representing the meanings of the component senses will require FOL expressiveness. Corresponds to senses 4 and 5 of 'common' in RHW, modifying both objects and Events: 4. widespread; general; ordinary: common knowledge. 5. of frequent occurrence; usual; familiar: a common event; a common mistake. Corresponds to adjective sense 2 of 'common' and sense 2 of 'familiar' and senses 1 and 2 of 'ordinary' in WordNet: WN 'common': 2. (15) common - (having no special distinction or quality; widely known or commonly encountered; average or ordinary or usual; "the common man'; 'a common sailor'; 'the common cold'; 'a common nuisance'; 'followed common procedure'; 'it is common knowledge that she lives alone'; 'the common housefly'; 'a common brand of soap') WN 'familiar' 2. (2) familiar - (within normal everyday experience; common and ordinary; not strange; 'familiar ordinary objects found in every home'; 'a familiar everyday scene'; 'a familiar excuse'; 'a day like any other filled with familiar duties and experiences') WN 'ordinary' 1. (38) ordinary - (not exceptional in any way especially in quality or ability or size or degree; 'ordinary everyday objects'; 'ordinary decency'; 'an ordinary day'; 'an ordinary wine') 2. (4) average, ordinary - (lacking special distinction, rank, or status; commonly encountered; 'average people'; 'the ordinary (or common) man in the street') common familiar common common2adj familiar familiar2adj ordinary ordinary2adj ordinary1adj frequent frequent frequent2adj A synonym of 'Common'. An attribute of Events (including Actions) that have no special salient qualities and are too common to be considered notable; synonyms everyday, common, ordinary; includes actions of agents that the agent performs frequently: 'customary'. Includes adjective sense 2 of 'routine' and sense 2 and part of sense 1 of 'usual' and sense 2 of 'customary' in WordNet. The 'usual time' sense is excluded - that sense will be assumed by the parent 'Common' in COSMO until more subsenses of 'common' are defined. WN 'routine': 2. (2) everyday, mundane, quotidian, routine, unremarkable, workaday - (found in the ordinary course of events; 'a placid everyday scene'; 'it was a routine day'; 'there's nothing quite like a real...train conductor to add color to a quotidian commute'- Anita Diamant) WN: 'usual': 1. (29) usual - (occurring or encountered or experienced or observed frequently or in accordance with regular practice or procedure; 'grew the usual vegetables'; 'the usual summer heat'; 'came at the usual time'; 'the child's usual bedtime') 2. (2) common, usual - (commonly encountered; 'a common (or familiar) complaint'; 'the usual greeting') WN adjective 'customary': 2. (4) accustomed, customary, habitual, wonted - (commonly used or practiced; usual; 'his accustomed thoroughness'; 'took his customary morning walk'; 'his habitual comment'; 'with her wonted candor') customary customary2adj usual usual usual1adj usual2adj routine routine2adj A synonym of 'Routine'. An attribute of things - events, properties, or objects - that are worthy of paying attention to because they are often (but not always) important or at least interesting to intelligent agents. This is an attribute that can be used to mark things that an agent should keep in mind. isTheCauseOfMentalSituation relates some Objects, Processes or Events to a MentalEvent, Action or Mental process, which are caused in some way by the causative Object or Event. This relation allows Objects to be the 'cause' of mental events, (such as revulsion or admiration) or Actions of agents even though the act of looking at or thinking about an Object may be said to be the actual 'cause'. This relation is broad to allow direct representation of linguistic relations. The subrelation 'hadMentalEffect' is more restricted to causes that are Events. NOTE that 'situations' such as a ProblemSituation are Events, and may be related to MentalEvents by this relation. 'mentalSituationWasCausedBy' is the inverse of 'isTheCauseOfMentalSituation' and relates some MentalEvent or Mental process, or intentional Action to some Objects, Processes or Events that in some way caused by the causative Object or Event. This represents a form of mental 'causation' and therefore does not require transfer of matter or energy, as does physical causation. A MentalSituation can be caused indirectly by an Event, by a Person hearing about the Event from some information source; no direct connection of MentalSituation and causative Event may be needed, though it is always possible. This corresponds to part of the meaning of linguistic phrases 'due to' or 'owing to'. owing to A PleasantThing is an Event, Process, Substance, or Object that will typically (or is intended to) give 'Pleasure' to a person who experences it (an Event) or who has possession of it (an object). This is a very broad category, necessarily vague because many things can give pleasure in many ways and in many degrees, yet it is useful to be able to predict whether a person can be expected to be pleased by something. To be more precise in such prediction will require a great deal of information about the circumstances and inclinations of individual people. Corresponds to noun sense 2 of 'pleasure' in WordNet: 2. (4) joy, delight, pleasure - (something or someone that provides pleasure; a source of happiness; 'a joy to behold'; 'the pleasure of his company'; 'the new car is a delight') pleasure pleasure pleasure2n isServingInTheRoleOf relates some Object to a Role that the Object is playing. For PhysicalObjects, the Role is usually time-dependent, and so assertions using this relation need to be indexed as to time by relating the reified assertion to some time interval. Linguistically, this relation can be expressed by saying that 'X is playing the role of R' or 'JR is playing Hamlet' (see 'DramaticActing' for a specialized use). Thus the verb 'play' will translate to this relation in such usage. Corresponds to noun sense 4 of 'play' in WordNet: 4. (27) act, play, represent - (play a role or part; "Gielgud played Hamlet"; "She wants to act Lady Macbeth, but she is too young for the role"; "She played the servant to her husband's master") play play play4v Points from an instance of Role or a RoleType to the Object or ObjectType that fills that Role. Each instance of Role will always have a start and end point, though they may not be known. NOTE that this relation and its inverse can be used for individuals or types; in the latter case, it means that every Role of a particular type has a role filler of a particualr type - but if this is expressed directly as a relation rather than a restriction, it merely serves as an instruction to the reasoner not to instantiate the filler. Inverse of 'hasRoleFiller' - points to a Role filled by some Object or ObjectType. COSMO note: This concept is similar to DOLCE 'Stative' but we make it temporarily (v0.2) a parent class of the DOLCE concept. Cyc: A specialization of #$Situation. Each instance of #$StaticSituation is a state of affairs between two or more things, persisting statically over some time interval. Instances of #$StaticSituation always have a temporal extent, and they usually have a tangible and spatial extent. As an example, consider the situation of Bill Clinton sitting in his easy chair on the evening of 7/4/96. There are participant objects such as Bill and the chair, there are relationships such as the seat of the chair supporting his bottom and his weight being off his feet, etc. In any #$StaticSituation, for the participants in that situation, there is some significant or focal relationship between them which does not change. In the most typical cases, there is no important change whatsoever, e.g. someone sitting would be such a #$StaticSituation. But some things represented as #$StaticSituations can alternatively be represented as #$Events. For example, a situation in which geese were flying in a flock would be static (the flock-like spatial relationship between the geese would be retained) but it would also be dynamic in that the geese were moving, so either representation could be chosen depending on the context. be1e537c-9c29-11b1-9dad-c379636f7270 Each instance of RoleSituation is a StaticSituation in which some entity filled some Role for some TimeInterval. A RoleSituation has only one role-filler. @ToDo: This restriction has not yet (v0.39) been formalized. As a Situation, each RoleSituation inherits a starting and an ending time point. Each RoleSituation has one role filler (subject), and this relation specifies that the subject of this relation is the role-filler (Subject) of the RoleSituation to which it points. Note that a RoleSituation is not a Role; it is a subtype of Event. Thus 'Student' would be a Role, but 'BeingaStudent' would be the corresponding RoleSituation. This relation is used primarily at the taxonomic level, to describe the relation of certain types of Events (RoleSituations) to the type of Role that is prominent in that Event. For specifying that individuals are playing specific Roles, use 'isServingInTheRoleOf' or 'fillsTheRoleOf'. Some AttributeValue specific to Organisms. This is very general. An EventAttributeValue is an AttributeValue that specifically characterizes Events. Any AttributeType specific to Organisms. 'DegreeOfIntensity' is an AttributeType whose values express some 'IntensiveAttributeValue'. This is a broad class of attributes, including those whose intensity varies gradually, as well as those for which discrete level have been identified. The sense of 'degree' meaning 'stage of development' is expressed by 'StageOfDevelopment'. The sense meaning 'grade', or level of quality is the subtype 'LevelOfQuality' Includes noun senses 1 and 2 of 'level' and sense 1 of 'degree' in WordNet: 1. (467) degree, grade, level - (a position on a scale of intensity or amount or quality; 'a moderate grade of intelligence'; 'a high level of care is required'; 'it is all a matter of degree') 2. (169) grade, level, tier - (a relative position or degree of value in a graded group; 'lumber of the highest grade') = level level level1n level2n degree degree degree1n A quantifier that specifies that there is no measurable quantity of the indicated thing. Corresponds to noun sense 1 of 'nothing' in WordNet: 1. (146) nothing, nil, nix, nada, null, aught, cipher, cypher, goose egg, naught, zero, zilch, zip, zippo - (a quantity of no importance; 'it looked like nothing I had ever seen before'; 'reduced to nil all the work we had done'; 'we racked up a pathetic goose egg'; 'it was all for naught'; 'I didn't hear zilch about it') nothing nothing nothing1n A specialization of #$Surface-Generic (q.v.).This is the collection of open surfaces of (tangible or intangible) spatial objects. Each instance of #$Surface-Open has some boundary, such as an edge, perimeter, or hole. Examples include the top surface of a tabletop, the surface of a whiffle ball, a slightly cracked eggshell, and the skin of an apple with a bite taken from it. Non-examples are a basketball skin and an intact eggshell; cf. #$Surface-Closed. Note that 'hole' here is intended in its colloquial, human-scale sense, according to which (e.g.) a wiffle ball has holes but a baseball does not (even though at some fine-grained level the latter does have tiny holes). bd8cb302-9c29-11b1-9dad-c379636f7270 GeographicalRegion_Cyc-includes_other_planets In COSMO, this type includes any region on or near the surface of a planet, including the region that contains its atmosphere. But the usage here differs from that in Cyc, and this category is not a physical object. For physical objects at the surface of a planet, see 'PlanetarySurfaceObject'. Cyc comment: A specialization of #$GeographicalThing and #$Surface-Physical. Each instance of #$GeographicalRegion is a tangible spatial region that includes some piece of the surface of a planet (usually #$PlanetEarth), and may be represented on a map of the planet. This includes purely topographical regions like mountains and underwater spaces, places defined by demographics (e.g., language areas) and territory otherwise demarcated (e.g. #$TimeZones). In dualist geopolitical contexts [see #$DualistGeopoliticalMt], instances of #$GeopoliticalEntity are also considered to be instances of #$GeographicalRegion. In all cases the region in question must contain some tangible component with which it is possible to make physical contact. The instances of #$GeographicalRegion contrast in this respect with the instances of #$GeographicalThing-Intangible, which are wholly intangible. Examples of #$GeographicalRegion include #$RockyMountainStates-USRegion, the #$ContinentOfAustralia, #$SinaiPeninsula, and - in dualist geopolitical contexts - #$YaleUniversity and #$CityOfPittsburghPA. Some important types of regions are represented by the sub-collections #$LanguageArea, #$TimeZone, #$PostalCodeRegion, #$EcologicalRegion, #$ConstructionSite, and - in dualist geopolitical contexts -- #$GeopoliticalEntity. No instances of #$GeographicalRegion are wholly indoor locations. GeographicalRegion[Cyc-includes_other_planets] Each GeographicalRegion is a connected one-,two- or three-dimensional region of space located on or near the surface of some astronomical body, not necessarily the Earth. For 3-dimensonal regions specifically on the Earth, use 'GeographicalArea'. It is understood that the regions defined are stationary with respect to some coordinate system in which the astronomical object itself is considered to be stationary. The astronomical object itself (most commonly the Earth) will of course be rotating and moving through space, and those motions are ignored when the relative locations defined by 'GeographicalRegion' are used. A GeographicalRegion will include some portion of the space above the solid material that defines the region, and below the surface; at this point (v 0.44) we have not precisely specified how much of the space above or below the surface is included. COSMO note: this Cyc category is reinterpreted as representing only spatial regions - points, areas, or volumes, on or near the surface of some planetary body (to clearly specify the Earth, use the subtype 'GeographicalArea'), but this does not represent any of the physical objects that might exist in that region. The discussion of 'tangible' in the Cyc documentation below suggests the inclusion of physical objects, but that is not the intent of this COSMO cateegory. Though this category does not include any physical objects, one may use 'GeographicalObject' to specify all of the objects in any GeographicalRegion, if desired. Cyc: A specialization of #$GeographicalThing and #$Surface-Physical. Each instance of #$GeographicalRegion is a tangible spatial region that includes some piece of the surface of a planet (usually #$PlanetEarth), and may be represented on a map of the planet. This includes purely topographical regions like mountains and underwater spaces, places defined by demographics (e.g., language areas) and territory otherwise demarcated (e.g. #$TimeZones). In dualist geopolitical contexts [see #$DualistGeopoliticalMt], instances of #$GeopoliticalEntity are also considered to be instances of #$GeographicalRegion. In all cases the region in question must contain some tangible component with which it is possible to make physical contact. The instances of #$GeographicalRegion contrast in this respect with the instances of #$GeographicalThing-Intangible, which are wholly intangible. Examples of #$GeographicalRegion include #$RockyMountainStates-USRegion, the #$ContinentOfAustralia, #$SinaiPeninsula, and - in dualist geopolitical contexts - #$YaleUniversity and #$CityOfPittsburghPA. Some important types of regions are represented by the sub-collections #$LanguageArea, #$TimeZone, #$PostalCodeRegion, #$EcologicalRegion, #$ConstructionSite, and - in dualist geopolitical contexts -- #$GeopoliticalEntity. No instances of #$GeographicalRegion are wholly indoor locations. WN noun 'area': 1. (620) area, country - (a particular geographical region of indefinite boundary (usually serving some special purpose or distinguished by its people or culture or geography); 'it was a mountainous area'; 'Bible country') WN 'place' 1. (79) topographic point, place, spot - (a point located with respect to surface features of some region; 'this is a nice place for a picnic') area area area1n place place place1n spot spot spot1n A #$Place or area with clustered or scattered buildings and a permanent human population, including cities, settlements, towns, and villages. It does not include #$Locales. NOTE that this is a subtype of PhysicalSpaceRegion and is disjoint with Agent. This is a synonym for 'Settlement': 'Settlement' is a very general concept of some area that has people residing in it, the people in it recognizing the area as having an identity distinct from that of other areas. It can be very small or very large. This is similar to the notion of "Populated Place" used in geographical Databases. OCM thesaurus: the topic of 'Settlements' is described: General statements covering several specific aspects of the physical configuration and material facilities of settlements ranging in size and complexity from a temporary camp to a great metropolis. To distinguish early-stage settlements from more established ones, the term 'Settlement' is reserved for this general concept, and 'EarlySettlement' for an early-stage settlement. acf243a4-24df-41d7-92f0-8a8fd5ad2507 A synonym for 'PopulatedPlace' used in Geographical Information systems. existsInContext is most useful to relate fictional, nythical, or hypothetical characters to the contexts in which they appear. It can be used to refer to the 'Real World', but that may be in most cases the default context that needs no explicit reference. Each 'TwoArgumentValue' is an AttributeValue that specifies the two argument values for an instance of a CompactedTernaryRelation. This is a mechanism to reresent ternary relations in the binary relation format of OWL.. Each instance of 'TwoArgumentValue' will have relations pointing to the two arguments that make up the ternary assertion that is represented. wasCreatedBySoleAgent relates an Artifact (concrete or abstract) to the individual Agent who created it. The Agent may be a Group, but there will be only one value for this relation, and to fill that value means that one knows the identity of all of the agents who participated enough in the creation to be called creators. This is not necessarily the same as an autor of record for a textual work, where ghost writers may get no credit. This is the real creator. 'isCreatedByAgentType' relates an ObjectType (concrete or abstract) to the type of Agent who *typically* creates or is capable of creating such things. The Agent may be a Group, and there may be more than one value for this relation. 'isCreatedByArtifact' relates an Object, SubstanceType, or ObjectType (concrete or abstract) to the type of ArtifactObject that does create, has created, or *typically* is used to create, or is capable of creating such things. An Object that is pointed to by this relation can be inferred to have the 'Capability' of creating such objects. This can be used to refer to types of manufacturing plants that produce obejcts of a particular type. For example, that gasoline is created by an oil refinery. The inverse of 'isCreatedByArtifact', points from an Object or ObjectType to the Object or ObjectType (or SubstanceType) that is produced or can be produced by that Object. 'isCreatedByDeviceType' relates an ObjectType (concrete or abstract) to the type of Device that *typically* is used to create, or is capable of creating such things. A Device that is pointed to by this relation can be inferred to have the 'Capability' of creating such objects. This can be used to refer to Devices use in manufacturing processes. Each instance of String-Entity relation is an ObjectProperty that can be translated into a String type attribute when converting from an OWL ontology to a schema, UML model, or other representation that uses String datatypes to refer to property values that are best represented as first-class entities in an ontology. This OWL Property type is specifically designed to assist translation of ontologies into other formats. Each instance of 'dbMappedRelation' is a OWL Property that can be mapped to one or more columns in a database when using an OWL ontology to access conceptual information from one or more database tables. Each instance of 'CompactedTernaryRelation' is a OWL Property that could be represented by a ternary relation in an FOL format, but has been compacted to fit into the binary relation format of OWL. The range of these relations will be instances of a type that specifies the two arguments that are folded into a single argument to fit into an OWL relation. Each instance of 'ExistentialRelation' is a relation between types of entities, rather than between instances of entities; a relation is specified as being of the type 'ExistentialRelation' when the intended meaning is that every instance of the subject is related to *some* instance of the object. This meaning could also be expressed by an OWL restriction using 'someValuesFrom'; however, the OWL restriction will be interpeted logically as being an inconsistency if no instance satisfying that relation is present in the ontology for every instance of the subject. It may not be necessary or desirable to create instances of the object every time an instance of the subject of a relation is created - and yet, we will want the reasoner to know, when it needs to, that some instance of the object type must exist. This formalism is adopted to allow an explicit assertion within the ontology that certain instances are implied by others, but to allow the reasoner to ignore that information unless it is required. So relations between types that imply the existence of an instance of the object for every instance of the subject will be made instances of 'ExistentialRelation'. Use of such information will require an FOL reasoner, but COSMO is intended to represent all information in the OWL format, in such a way tat it can be converted to an FOL format for more detailed reasoning. Whether and how this represented information will be used will be up to the implementation. The task of the ontology is to represent that information, and this provides a means to do so without overburdening the reasoner. There will also be relations between types (as for example subclasses of PhysicalSubstance or of AttributeValue) for which there is no implication of the existence of instances of the object type. These relations will not be instances of 'ExistentialRelation'. Each instance of 'dbMappedDataRelation' is a OWL Property that can be mapped to some datatype column in a database when using an OWL ontology to access conceptual information from one or more database tables. 'Even' as an attribute (adjective) is a broad term signifying alignment of comparable edges of two PhysicalObjects, or a relative smoothness of the surface of an object. The subtypes of this type give the more specific meanings. This corresponds to adjective sense 2 of 'even' in WordNet: 3. (2) even - (being level or straight or regular and without variation as e.g. in shape or texture; or being in the same plane or at the same height as something else (i.e. even with); 'an even application of varnish'; 'an even floor'; 'the road was not very even'; 'the picture is even with the window') COSMO note: In Cyc, this class has physical objects in it that are flat. For COSMO, this is redefined as an AttributeValue. NOTE that an Object can have some sourface roughness and still be 'Flat', such as a flat roof with gravel on it. This AttributeValue needs to be interpreted with respect to the scale of the object being described. Thus this is not the same as 'smooth'. Cyc comment: A flat surface is flat overall. It may have texture or may have relatively small subregions which are concave, convex, have holes all the way through etc.. Need not be horizontal. See #$SheetShaped for 'two-sided' or 'flat' objects such as boards, uncrumpled sheets of paper, or Compact Discs. 209bf3e4-74bf-11d6-8000-00a0c99cc5ae 'Horizontal' is an AttributeValue of SolidObjects that have at least one long dimension that is oriented parallel to the Earth's surface. This is an approximate attribute, and things can be more horizontal than others. The degrees of 'horizontalness' have not yet (v755 been specified.. 'Vertical' is an AttributeValue of SolidObjects that have at least one long dimension that is oriented perpendicular to the Earth's surface. This is an approximate attribute, and things can be more vertical than others, but the orientation should not deviate by more than ten degrees from true vertical. The degrees of 'verticalness' have not yet (v755 been specified. For the moral sense of 'upright' use 'Just'. This sense includes adjective sense 1 of 'vertical', senses 1 and 3 of 'upright' and sense 1 of 'erect' in WordNet: 1. (5) upright, unsloped - (in a vertical position; not sloping; 'an upright post') 3. erect, vertical, upright - (upright in position or posture; 'an erect stature'; 'erect flower stalks'; 'for a dog, an erect tail indicates aggression'; 'a column still vertical amid the ruins'; 'he sat bolt upright') upright upright upright1adj upright3adj erect erect1adj vertical vertical1adj ObjectWithAttribute is a container category to collect all Types of PhysicalObjects that are defined by some distinctive attribute, such as 'Collectible' (taken from the openCyc.. A FlatObject is a PhysicalObject that has at least one surface that is relatively Flat. COSMO note: In Cyc, this class was called 'Flat', which in COSMO is an attribute. Cyc comment: A flat surface is flat overall. It may have texture or may have relatively small subregions which are concave, convex, have holes all the way through etc.. Need not be horizontal. See #$SheetShaped for 'two-sided' or 'flat' objects such as boards, uncrumpled sheets of paper, or Compact Discs. 209bf3e4-74bf-11d6-8000-00a0c99cc5ae A GroundOrFloor is some solid relatively horizontal flat object on which an animal can move in multiple directions (as opposed to, e.g. the limb of a tree that restricts direction of motion). This is a broad category, including natural ground such as soil, a lawn, a beach, a large flat rock on which one can stand, etc.,as well as flat artifacts on which a person can stand and move to some extent, including the floors of a structure, even one as small as a tree house. This is included to allow description of movements and postures involving relations with the object one is standing on. NOTE that a ceiling is also Flat and Horizontal, and as of v955 the distinction has not yet been axiomatized. A DynamicObject is a PhysicalObject for which the internal movement of the whole or some part is an essential characteristic of its identity. A tornado, a whirlpool, or a dust devil are examples. This does not include microscopic movements such as biological processes, therefore living things are not instances. A borderline included subthpe is 'WaterWave'; motion is part of its identity. NOTE that simple linear moving things like currents are represented as FunctionalProcesses, even though they have some of the character of a DynamicObject. A current of water is not an instance of DynamicObject. This distinction is not entirely arbitrary; a linear current has a flow rate as one of its salient characteristics, and that is representd as a time derivative, which is one salient characteristic of a FunctionalProcess. A DynamicObject will exhibit salient characteristics beyond a simple linear flow, as in the case of a tornado which moves up, down, and sideways as well as in a circle. A 'LocalGroup' is a Group consisting exclusively of PhysicalObjects, and located in some specific location. This is more specific than 'ObjectGroup' in requiring that the place inwhich all the objects are located by specified explicitly or implicitly in the assertion using this type.. Some examples are toolkits, football teams while together on the field, and flocks of sheep. A ChemicallyDefinedSubstance is a PhysicalSubstance that is defined by its chemical composition. The specialized types will have a relatively well-defined composition, though the higher level catagories may have significant variation in the exact chemical composition, such as 'Rubber' or 'Alloy'. Substances that are commonly thnought of as relatively defined, even though they are mixtures such as Ivory and gemstone substances, are also subtypes of this Type. In Cyc labeled 'TangibleStuffCompositionType'. Cyc: A collection of collections and a specialization of #$ExistingStuffType. Instances are subcollections of #$PartiallyTangible whose membership is based only on the physical and/or chemical composition of their instances. #$TangibleStuffCompositionType does not have as instances collections whose instances are determined _solely_ by the physical state they are in - for that, see #$TangibleStuffStateType. However, many substances that chemically break down before melting (e.g. #$FattyTissue) _are_ included in this collection, even though they exist solely in one physical state. The collection #$Water is an instance of #$TangibleStuffCompositionType, as instances of #$Water are all pieces of substance with the chemical composition H20. On the other hand , the collection of all pieces of ice (i.e. (#$SolidFn #$Water)) is not a #$TangibleStuffCompositionType, because membership in that collection depends on the substance's composition _and_ on its physical state. #$TalcumPowder is not an instance of this collection because a fused mass of the substance would no longer be powder, but would still be of the same #$TangibleStuffCompositionType. Further instances of #$TangibleStuffCompositionType are #$Nylon, #$GasolineFuel, #$FattyTissue, #$Nitrogen, and #$Glass. An important specialization of this collection is #$ChemicalSubstanceType - those substance types defined solely by their chemical formulae. bd58864a-9c29-11b1-9dad-c379636f7270 hasChemicalComposition specifies the proportion of elements in a ChemicallyDefinedSubstance. The range is an AbstractString, but the string is restricted in that the alphabetical parts must be ligitimate chemical symbols for elements. This relation includes not only ChemicalFormulas, which specify the number of atoms in each molecule (or balanced ion group for ionic materials), but also proportions of atoms in organic substances such as biopolymers, where the numbers behind each element may be fractional, representing an average over several closely related molecules or an average in a large molecule. However, percent compositions, specified as percentages, cannot be represented using this relation. hasChemicalFormula specifies the number of atoms in each unit (molecule or repeating balanced ion group) of each element in a ChemicallyDefinedSubstance that is not considered as a mixture of substances. The range is an AbstractString, but the string is restricted in that the alphabetical parts must be legitimate chemical symbols for elements, and the numbers after each element symbol must be an integer. For macromolecules, only those whose true molecular formula is known can have a formula pointed to by this relation. A simple grouping is permitted to express some structure: a hyphen represents a single bond between atom groups, as in 'NH2-CO-NH2' for Urea, or '-COOH' represents a carboxyl group. To specify a name that is not a ChemicalFormula, use 'hasChemicalname'. Corresponds to a specialized use of verb sense 1 of 'have' in WordNet: 1. (1202) have, have got, hold - (have or possess, either in a concrete or an abstract sense; "She has $1,000 in the bank"; "He has got two beautiful daughters"; "She holds a Master's degree from Harvard") have have have1v The ontology name of each NamespacePrefix can serve as a string designating a Namespace, and each such string must be unique within the ontology so that the ontology can recognize and reason about Contexts such as Namespaces. A NamespacePrefix will concatenate with an underscore and any other names or prefixes to uniquely identify (within any ontology) entities such as codes, databses, databse tables, database columns,etc. No entity name in the ontology that is not intended to relate to the databsse or code symbolized by the rpefix should begin its name with that prefix followed by an underscore. It should be unquestioned that any specified prefix, followed by an underscore and other characters, represents som eentity within the context symbolized by that namespace prefix. hasNamespacePrefix Specifies an entity whose ontology identifier can serve as a string which constitutes a unique namespace prefix to be used to make unique identifiers for entities in the ontology. By making the NamespacePrefixes into first-class entities in the ontology, the internal ontology uniqueness function can serve as a check that each NamespacePrefix is unique.. The prefix used for the chemical symbols of elements and compounds (i.e. chemical formulas, which are not necessarily unique for each compound). The chemical symbol for Ethyl alcohol, for example, can be represented as 'CHEM_C2H5OH' or 'CHEM_C2H6O', though the former contains more information; and water would be 'CHEM_H2O'. Elements that have symbols similar to other words can be unambiguosly represented this way, such as 'CHEM_At' for Astatine. An AbstractString representing the atomic composition for well-defined substances, in which each atomic symbol in the String is followed by an integer, or another atomic symbol (implying the integer '1'). Chemical formulas should use the 'CHEM_' namespace prefix, so as to minimize ambiguity, even if the bare formula appears unambiguous. . The compound with one carbon and two oxygens in each molecule - CO2. A relationship that allows one to specify the known time(s) during which an individual organisn (usually an animal) was (is) alive. There can be more than one such time specified, and it must be deducible that an Organism was also alive in the intervals between the known times that it was alive. The full lifetime need not be specified, even if known. COSMO: A GeopoliticalEntity which is usually called a 'country' or 'nation'. This will be the most common referent for a country in relations in the ontology, unless the government or the area of the country is specifically intended as the referent. NOTE that a Country is not the land area nor the government, but a composite entity: It is a MentalObject which is not a PhysicalObject. A GeopoliticalEntity in COSMO is a composite Entity which (1) is an agent (2) claims control over some land area of the earth (3) has a government, which is also an agent. Cyc: A specialization of #$GeopoliticalEntity. Each instance of #$Country is a nation-state having its own territory, population, and government, whether or not it is fully independent. For example, #$Scotland is an instance of #$Country, even though it is a part of the #$UnitedKingdomOfGreatBritainAndNorthernIreland. See also the important specialization #$IndependentCountry. Corresponds to noun sense 2 of 'country' and sense 1 of 'nation' in WordNet: 2. (257) state, nation, country, land, commonwealth, res publica, body politic - (a politically organized body of people under a single government; 'the state has elected a new president'; 'African nations'; 'students who had come to the nation's capitol'; 'the country's largest manufacturer'; 'an industrialized land') bd588879-9c29-11b1-9dad-c379636f7270 country country country2n nation nation nation1n COSMO: A synonym for 'Country'. NOTE that the sense of 'nation' used in 'the Siox nation' is not the sense intended here. COSMO: A synonym for 'Country'. 'State' is an ambiguous term with at least two frequently used but different meanings; it is synonymous with two terms: (1) PersistentState: A state of affairs that persists over some period of time is what is most commonly referred to as a 'state', if one includes the special case where the interval is zero, i.e. the 'state' is the state at a particular moment. (2) A Nation, or the first administrative subdivision of a Nation.. Therefore 'State' is a potentially confusing and deprecated term in COSMO and appears only in the list of Synonyms. This is the collection of #$SystemConditions which are dysfunctional for the system they affect. An dysfunctional condition is one which impairs the functioning of the system. For example, the function of an artery is to allow blood to flow to a part of the body, so that a blockage of the artery will constitute an abnormal condition of the artery to the extent that it reduces the flow of blood to that part of the body. e9ed2ff2-8ad9-41d7-9fbc-c5d588253797 'Unusual' the property that of something that is outside the usual range (of properties, property values, etc) for a thing of that type. See also the subtypes 'Strange', 'Abnormal', and 'Extraordinary'. Includes all 3 senses of 'unusual' and both senses of 'atypical' and both senses of 'uncommon' and sense 4 of 'rare' in WordNet; WN 'unusual' 1. (24) unusual - (not usual or common or ordinary; 'a scene of unusual beauty'; 'a man of unusual ability'; 'cruel and unusual punishment'; 'an unusual meteorite') 2. (1) strange, unusual - (being definitely out of the ordinary and unexpected; slightly odd or even a bit weird; 'a strange exaltation that was indefinable'; 'a strange fantastical mind'; 'what a strange sense of humor she has') 3. (1) unusual - (not commonly encountered; 'two-career families are no longer unusual') WN 'atypical' 1. (1) atypical, untypical - (not representative of a group, class, or type; 'a group that is atypical of the target audience'; 'a class of atypical mosses'; 'atypical behavior is not the accepted type of response that we expect from children') 2. atypical, irregular - (deviating from normal expectations; somewhat odd, strange, or abnormal; 'these days large families are atypical'; 'atypical clinical findings'; 'atypical pneumonia'; 'highly irregular behavior') WN 'uncommon' 1. (4) uncommon - (not common or ordinarily encountered; unusually great in amount or remarkable in character or kind; 'uncommon birds'; 'frost and floods are uncommon during these months'; 'doing an uncommon amount of business'; 'an uncommon liking for money'; 'he owed his greatest debt to his mother's uncommon character and ability') 2. rare, uncommon - (marked by an uncommon quality; especially superlative or extreme of its kind; 'what is so rare as a day in June'-J.R.Lowell; 'a rare skill'; 'an uncommon sense of humor'; 'she was kind to an uncommon degree') WN 'rare' 2. (2) rare -- (recurring only at long intervals; "a rare appearance"; "total eclipses are rare events") 3. (2) rare -- (not widely distributed; "rare herbs"; "rare patches of green in the desert") 4. (1) rare, uncommon - (marked by an uncommon quality; especially superlative or extreme of its kind; "what is so rare as a day in June"-J.R.Lowell; "a rare skill"; "an uncommon sense of humor"; "she was kind to an uncommon degree") unusual unusual unusual1adj unusual2adj unusual3adj atypical atypical1adj atypical2adj uncommon uncommon1adj rare rare rare2adj rare3adj rare4adj 'HighlyUnusual' is an intensive form of 'Unusual' - unusual to a high degree. NOTE that this sense is neutral with resepct to the kind of thing that is unusual - it can be an unusual instance of a type of obejct, and unusual event, and unusual property for an object. The more specific ways something can be unusual are covered by the types 'Infrequent' and 'HardToFind'. Includes adjective senses 2,3, and 4 of 'rare' and sense 1 of 'singular' in WordNet: 2. rare, uncommon - (marked by an uncommon quality; especially superlative or extreme of its kind; 'what is so rare as a day in June'-J.R.Lowell; 'a rare skill'; 'an uncommon sense of humor'; 'she was kind to an uncommon degree') 3. (2) rare - - (not widely distributed; "rare herbs"; "rare patches of green in the desert") 4. (1) rare, uncommon - (marked by an uncommon quality; especially superlative or extreme of its kind; "what is so rare as a day in June"-J.R.Lowell; "a rare skill"; "an uncommon sense of humor"; "she was kind to an uncommon degree") WN 'singular' 1. (3) remarkable, singular - - (unusual or striking; "a remarkable sight"; "such poise is singular in one so young") rare rare rare2adj rare3adj rare4adj singular singular singular1adj 'Surprising' the property that of something that is not expected, and therefore causes the Feeling of Surprise. This is often relative to a particular agent's expectations; but things may be surprising to everyone. Corresponds to sense 1 of 'surpsrising' in WordNet; 1. (11) surprising - (causing surprise or wonder or amazement; 'the report shows a surprising lack of hard factual data'; 'leaped up with surprising agility'; 'she earned a surprising amount of money') surprising surprising1adj Abnormal is a property that can be assigned to something that is not just unusual, but unusual in a negative way. For the sense of 'highly unusual' without the implication of being bad, use 'Unusual'. For unusual and suprisingly so, use 'strange'. Includes adjective sense 2 and part of sense 1 of 'abnormal' in WordNet, but no WordNet sense specifically specifies the 'bad' meaning of 'abnormal' in this sense. 1. (1) abnormal - (not normal; not typical or usual or regular or conforming to a norm; 'abnormal powers of concentration'; 'abnormal amounts of rain'; 'abnormal circumstances'; 'an abnormal interest in food') 2. abnormal - (departing from the normal in e.g. intelligence and development; 'they were heartbroken when they learned their child was abnormal'; 'an abnormal personality') abnormal abnormal1adj An AbnormalCondition is a SystemCondition which is not normal (i.e. unusual) for the system in which it is observed. It is worse than the usual condition (i.e. undesirable), not just different - but it is not necessarily a malfunction. Chipped paint on some object would be an AbnormalCondition, and a Disease would also be. A specialization of both #$DysfunctionalCondition and #$PhysicalEvent. Each instance of #$Malfunction is a dynamic state of impairment, in the sense that it has temporal aspects, it progresses dynamically, and so on; it is not just being in some static state of error (as non-event instances of #$DysfunctionalCondition are). Notable specializations of #$Malfunction include #$AgentBasedSystemMalfunction and #$Cancer. #$Malfunction is an instance of #$TemporalStuffType, since #$situationTemporalParts of malfunctions are themselves malfunctions down to a relatively fine granularity. NOTE that the restriction requires specifying in what Object the malfunction occurs. Corresponds to noun sense 1 of 'malfunction' in WordNet: 1. malfunction - - (a failure to function normally) bdd1efcf-9c29-11b1-9dad-c379636f7270 malfunction malfunction1n hasCorrespondingProcess relates an Event (or eventType) to the FunctionalProcess (or ProcessType) which gives rise to the Event over some interval of time (or more abstractly, some interval on the dimension of causality). NOTE that this relation can be used at either the instance or Type level, and can be used in a mixed mode, to specify that a particular Event was produced by a particular Type of Process. This relation is not yet elaborated in COSMO v0.3, and serves mostly as a placeholder to clarify (somewhat) the relation between Event and FunctionalProcess.. The inverse of 'hasCorrespondingProcess', points from an EventType to the ProcessType that results in that tyoe of Event.. A 'AilmentCondition' is any bodily malfunction in which some deterioration of function in some part of the body occurs that is not directly caused by injury. Such conditions are considered 'unpleasant' in COSMO een if they do not have immediately perceptible symptoms, because by reducing function they cause undesirable things to happen. COSMO note: the terms ailment, illness, disease, and sickness are considered as logical synonyms in COSMO. This is the most general category for any kind of illness, from a minor ache to a fatal disease, for any organism. Although the usage of each synonymous term varies, it is difficult to distinguish any differences in meaning. In the Random House Webster, definition 1 of 'disease' states: Disease 1. a disordered or incorrectly functioning organ, part, structure, or system of the body resulting from the effect of genetic or developmental errors, infection, poisons, nutritional deficiency or imbalance, toxicity, or unfavorable environmental factors; illness; sickness; ailment. NOTE: that breaks of bones or other trauma or injury is not included in this concept, nor is the anatomical abnormality resulting from injury, However, secondary physiological processes such as pain, inflammation, or other abnormality resulting from the injury is included here. NOTE: that this is a PersistentState, which is a type of Event that has a beginning and ending time. Although a PersistentState can be defined with an arbitrary beginning and ending time, the usual interpretation of the linguistic terms associated with illness will either refer to the whole event from onset to disapppearance of the illness, or to the DiseaseProcess that produces the illness during that interval of time. This may not conform exactly to the Cyc interpretation, below. In COSMO, the DiseaseProcess that produces an AilmentCondition is different from though intimately related to the AilmentCondition. NOTE the restriction: Every Ailment has a corresponding ProcessType, being a PhysiologicalConditionType. NOTE also that an AilmentCondition is not the same as the symptoms of that condition. The symptoms are a separate but related logical category. NOTE also that not every abnormal physiological condition is an AilmentCondition. Arrhythmia, for example, may be clinically insignificant or innocuous. NOTE also that a single instance of a disease is confined to one organism, so a Disease 'isLocatedAt' only one particular organism. To specify that a group of organisms is suffering from a disease, or that an epidemic is occurring among some group of organisms use 'DiseaseGroup'. Cyc: The most general collection of ailment events; a subcollection of both #$PhysiologicalCondition and #$DysfunctionalCondition. An instance of #$AilmentCondition is a dynamic state of sickness, injury, or physiological impairment. The rationale for construing ailments in this way is the obvious fact that to have an ailment is to undergo an event: an individual ailment has temporal features, it progresses dynamically, and so on. It is not just a matter of being in some static state of unwellness . Subcollections of #$AilmentCondition include #$RespiratoryAilment, #$HeartCondition, #$Cancer, #$MotionSickness, #$Poisoning, #$Infection, and #$InjuryCondition. If a particular person has an infection, that event is an instance of #$AilmentCondition. An #$AilmentCondition does not begin before there is an actual, developed sickness or impairment, and thus does not include the event of getting sick or becoming impaired. Also note that each type of ailment, such as #$Infection, is the collection of all cases or instances of individuals suffering from that condition. See also #$DiseaseType. Corrresponds to noun sense 1 of 'illness' and sense 1 of 'ailment' in WordNet. The WordNet distinctions between these two are unclear and are ignored. 1. (8) illness, unwellness, malady, sickness - (impairment of normal physiological function affecting part or all of an organism) 1. (7) ailment, complaint, ill - (an often persistent bodily disorder or disease; a cause for complaining) c10c1856-9c29-11b1-9dad-c379636f7270 illness illness1n ailment ailment1n A common term for 'AilmentCondition'. NOTE that this is a PersistentState, which is a subtype of Event in COSMO; it is not a Process. Therefore it has a starting and ending time. A common term for 'AilmentCondition'. NOTE that this is a PersistentState, which is a subtype of Event in COSMO; it is not a Process. Therefore it has a starting and ending time. A common term for 'AilmentCondition'. NOTE that this is a PersistentState, which is a subtype of Event in COSMO; it is not a Process. Therefore it has a starting and ending time. An Event which is sufficiently beneficial to someone to be of interest to the builder or user of the ontology - a subjective judgment.. An Event which is sufficiently harmful to someone to be of interest to the builder or user of the ontology - a subjective judgment. UndesirableThing is a generic class that can be used to label certain types of objects or situations as undesirable, and therefore something to avoid, and therefore something that is salient. The property of being undesirable ('Bad') is relative to some Agent's purposes, and the restriction requires that the Agent to whom something is Undesirable should be specified. Some things may be undesirable to everyone (e.g. illness). NOTE that being undesirable is not necessarily to be unpleasant. 'isUndesirableTo' relates and UndesirableThing to the Agent to whom it is undesirable.