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KB Term:  Term intersection
English Word: 

  domain

Sigma KEE - domain
domain

appearance as argument number 1
-------------------------


(documentation domain ChineseLanguage "为声明某种特定关系参数的类型, 提供一个便利计算机和应用启发 式运算的机制。公式(domain ?REL ?INT ?CLASS)的意思是在?REL关系中,每个元组的第?INT个元素,必须是 ?CLASS种的一个实例。 指定参数类型对维护知识本体甚有裨益。 表示知识的系统可以使用这些规范来把术语分类, 并检查系统的完整性约束有否受到破坏。如果出现某个Relation参数类型的限制,还没有在知识本体内现有 SetOrClass 定义所描述时,可以使用 UnionFnIntersectionFn 等这些功能,来逐一指定该 SetOrClass 的限制。") chinese_format.kif 1380-1385
(documentation domain EnglishLanguage "Provides a computationally and heuristically convenient mechanism for declaring the argument types of a given relation. The formula (domain ?REL ?INT ?CLASS) means that the ?INT'th element of each tuple in the relation ?REL must be an instance of ?CLASS. Specifying argument types is very helpful in maintaining ontologies. Representation systems can use these specifications to classify terms and check integrity constraints. If the restriction on the argument type of a Relation is not captured by a Class already defined in the ontology, one can specify a Class compositionally with the functions UnionFn, IntersectionFn, etc.") Merge.kif 211-219
(domain domain 1 Relation) Merge.kif 208-208 定义域 的 1 数量 是 关系instance
(domain domain 2 PositiveInteger) Merge.kif 209-209 定义域 的 2 数量 是 正整数instance
(domain domain 3 Class) Merge.kif 210-210 定义域 的 3 数量 是 instance
(instance domain TernaryPredicate) Merge.kif 207-207 定义域三元谓语instance

appearance as argument number 2
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(format ChineseLanguage domain "%1 的 %2 数量 %n 是 %3 的 instance") chinese_format.kif 291-291
(format EnglishLanguage domain "the number %2 argument of %1 is %n an instance of %3") english_format.kif 296-296
(termFormat ChineseLanguage domain "域") domainEnglishFormat.kif 20103-20103
(termFormat ChineseLanguage domain "定义域") chinese_format.kif 292-292
(termFormat ChineseTraditionalLanguage domain "域") domainEnglishFormat.kif 20102-20102
(termFormat EnglishLanguage domain "domain") domainEnglishFormat.kif 20101-20101

antecedent
-------------------------


(=>
    (and
        (applicableRelation ?O ?R)
        (instance ?O ?OC)
        (domain ?R 1 ?DC))
    (or
        (equal ?OC ?DC)
        (subclass ?OC ?DC)))
Mid-level-ontology.kif 30884-30891
(=>
    (and
        (domain ?REL ?NUMBER ?CLASS)
        (instance ?REL Predicate)
        (?REL @ROW))
    (instance
        (ListOrderFn
            (ListFn @ROW) ?NUMBER) ?CLASS))
Merge.kif 2934-2939
(=>
    (and
        (domain ?REL ?NUMBER ?CLASS1)
        (domain ?REL ?NUMBER ?CLASS2))
    (or
        (subclass ?CLASS1 ?CLASS2)
        (subclass ?CLASS2 ?CLASS1)))
Merge.kif 221-227
(=>
    (and
        (domain ?REL1 ?NUMBER ?CLASS1)
        (domain ?REL2 ?NUMBER ?CLASS2)
        (disjoint ?CLASS1 ?CLASS2))
    (disjointRelation ?REL1 ?REL2))
Merge.kif 419-424
(=>
    (and
        (instance ?REL EconomicRelation)
        (domain ?REL 1 ?CLASS))
    (subclass ?CLASS GeopoliticalArea))
Mid-level-ontology.kif 16399-16403
(=>
    (and
        (subrelation ?PRED1 ?PRED2)
        (domain ?PRED2 ?NUMBER ?CLASS1))
    (domain ?PRED1 ?NUMBER ?CLASS1))
Merge.kif 186-190

consequent
-------------------------


(=>
    (and
        (subrelation ?PRED1 ?PRED2)
        (domain ?PRED2 ?NUMBER ?CLASS1))
    (domain ?PRED1 ?NUMBER ?CLASS1))
Merge.kif 186-190
(=>
    (instance ?FUN OneToOneFunction)
    (forall (?ARG1 ?ARG2)
        (=>
            (and
                (domain ?FUN 1 ?CLASS)
                (instance ?ARG1 ?CLASS)
                (instance ?ARG2 ?CLASS)
                (not
                    (equal ?ARG1 ?ARG2)))
            (not
                (equal
                    (AssignmentFn ?FUN ?ARG1)
                    (AssignmentFn ?FUN ?ARG2))))))
Merge.kif 3312-3321
(=>
    (instance ?FUNCTION AssociativeFunction)
    (forall (?INST1 ?INST2 ?INST3)
        (=>
            (and
                (domain ?FUNCTION 1 ?CLASS)
                (instance ?INST1 ?CLASS)
                (instance ?INST2 ?CLASS)
                (instance ?INST3 ?CLASS))
            (equal
                (AssignmentFn ?FUNCTION ?INST1
                    (AssignmentFn ?FUNCTION ?INST2 ?INST3))
                (AssignmentFn ?FUNCTION
                    (AssignmentFn ?FUNCTION ?INST1 ?INST2) ?INST3)))))
Merge.kif 3354-3364
(=>
    (instance ?FUNCTION CommutativeFunction)
    (forall (?INST1 ?INST2 ?CLASS)
        (=>
            (and
                (domain ?FUNCTION 1 ?CLASS)
                (instance ?INST1 ?CLASS)
                (instance ?INST2 ?CLASS))
            (equal
                (AssignmentFn ?FUNCTION ?INST1 ?INST2)
                (AssignmentFn ?FUNCTION ?INST2 ?INST1)))))
Merge.kif 3374-3384

appearance as argument number 0
-------------------------


(domain ABPFn 1 Collection) UXExperimentalTerms.kif 3435-3435 ABPFn 的 1 数量 是 群体instance
(domain ASPFn 1 Collection) UXExperimentalTerms.kif 3480-3480 ASPFn 的 1 数量 是 群体instance
(domain AbortedFn 1 AutonomousAgent) MilitaryProcesses.kif 2410-2410 中止 的 1 数量 是 AutonomousAgentinstance
(domain AbortedFn 2 Process) MilitaryProcesses.kif 2411-2411 中止 的 2 数量 是 过程instance
(domain AbortedLaunchFn 2 TakingOff) MilitaryProcesses.kif 2476-2476 中止发射 的 2 数量 是 起飞instance
(domain AbortedMissionFn 2 MilitaryOperation) MilitaryProcesses.kif 2430-2430 任务中止 的 2 数量 是 军事行动instance
(domain AbsoluteValueFn 1 RealNumber) Merge.kif 4674-4674 绝对值函数 的 1 数量 是 实数instance
(domain AccelerationFn 1 FunctionQuantity) Cars.kif 1274-1274 AccelerationFn 的 1 数量 是 函数量instance
(domain AccelerationFn 2 TimeDuration) Cars.kif 1275-1275 AccelerationFn 的 2 数量 是 持续时间instance
(domain AccelerationFn 3 Object) Cars.kif 1276-1276 AccelerationFn 的 3 数量 是 客体instance
(domain AccelerationFn 4 DirectionalAttribute) Cars.kif 1277-1277 AccelerationFn 的 4 数量 是 方向属性instance
(domain AccountFn 1 FinancialAsset) FinancialOntology.kif 2324-2324 帐户 的 1 数量 是 金融资产instance
(domain AdditionFn 1 RealNumber) Merge.kif 4624-4624 加法函数 的 1 数量 是 实数instance
(domain AdditionFn 2 RealNumber) Merge.kif 4625-4625 加法函数 的 2 数量 是 实数instance
(domain AddressFn 1 ComputerFile) QoSontology.kif 221-221 地址 的 1 数量 是 电脑文件instance
(domain AfternoonFn 1 Day) Merge.kif 8744-8744 AfternoonFn 的 1 数量 是 instance
(domain AgreementOrganizationFn 1 Agreement) Geography.kif 2978-2978 协议组织 的 1 数量 是 协议instance
(domain AlbumCopiesFn 1 Album) Music.kif 928-928 AlbumCopiesFn 的 1 数量 是 Albuminstance
(domain AmountsFn 2 CorpuscularObject) Merge.kif 7490-7490 AmountsFn 的 2 数量 是 躯体性物体instance
(domain AmountsFn 3 UnitOfMass) Merge.kif 7491-7491 AmountsFn 的 3 数量 是 UnitOfMassinstance
(domain ArcCosineFn 1 RealNumber) Merge.kif 5167-5167 ArcCosineFn 的 1 数量 是 实数instance
(domain ArcSineFn 1 RealNumber) Merge.kif 5177-5177 ArcSineFn 的 1 数量 是 实数instance
(domain ArcTangentFn 1 RealNumber) Merge.kif 5157-5157 ArcTangentFn 的 1 数量 是 实数instance
(domain AssignmentFn 1 Function) Merge.kif 777-777 分派函数 的 1 数量 是 函数instance
(domain AssignmentFn 2 Entity) Merge.kif 778-778 分派函数 的 2 数量 是 实体instance

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