DFL – a dialog based integration of concept and rule reasoners
Identifieur interne : 000D04 ( Main/Exploration ); précédent : 000D03; suivant : 000D05DFL – a dialog based integration of concept and rule reasoners
Auteurs : Mira Balaban [Israël, États-Unis] ; Adi Eyal [Israël]Source :
- Data & Knowledge Engineering [ 0169-023X ] ; 2001.
English descriptors
- Teeft :
- Abox, Alck, Algorithm, Ansr, Balaban, Binary, Border location, Border locations, Carin, Carin frameworks, Compositional, Compositional semantics, Computer music, Computer science, Concept description, Concept descriptions, Concept languages, Concept symbols, Concept term, Concept terms, Condition atoms, Condition part, Constraint, Corresponding theory, Dangerous plant, Dangerous_plant, Data level reasoning, Database, Datalog, Declarative semantics, Description formulae, Description language, Description languages, Description logic, Description logics, Dflp, Dialog, Epistemic, Epistemic logic alck, Epistemic operator, Equality formulae, Expressive power, Eyal, Eyal data knowledge engineering, Factual knowledge, Global database, Good investment, Heterogeneous knowledge base, Heterogeneous system, Inclusion, Information sources, Integration framework, Integration frameworks, International workshop, Interpreter, Intuitive reading, Knowledge base, Knowledge representation, Located_at, Logic programming, Logical implication, Mechanical plant, Mechanical product, Mechanical products, Membership formulae, Membership implications, Negev, Object symbols, Open world assumption, Other forms, Plant_machteshim, Predicate, Predication, Query, Query dispatch, Radioactive material, Reasoner, Rich companies, Rich company, Risky, Risky place, Risky_place, Role inclusion, Role inclusion formulae, Role symbols, Role term, Rrules, Rrules mapping, Rule component, Rule conditions, Rule inferences, Rule language, Rule reasoner, Rule reasoners, Rule reasoning, Safe place, Semantic networks, Semantical policies, Semantics, Structural subsumption, Subset, Subsumption, Subsumption query, Syntactic, Syntactic objects, Syntactic shortcut, Tbox, Tbox reasoning, Technical report, Terminological, Terminological formulae, Terminological reasoning, Terminology, Time minutes, Toxic waste, Toxic_waste, Transitive closure, Uniform plant, Varlp, Weak inclusion, World assumption, Xpoint, Xpoint semantics.
Abstract
Description logics (DLs) are subsets of first-order logic (FOL), designed for reasoning about class-based knowledge. Their expressive power is deliberately restricted, so as to enable efficient inference. A DL reasoner or knowledge base is intended to be embedded as a special purpose component in a heterogeneous knowledge base. Therefore, the development of integration frameworks of DLs and other forms of reasoning is essentially important. In this paper, we introduce a formal scheme for the integration of information sources for which a combined declarative semantics is not available. The integration is defined by a syntactic compositional semantics, and implemented by a dialog process in which the independent reasoners make their failures public. This scheme is used to formalize the integration of a DL reasoner with an expressive rule reasoner (for which a combined declarative semantics is not known). It is implemented in the DFL system, that integrates a DL reasoner and an F-Logic rule reasoner. The integrated system gives rise to a rich dialog between its components, since the DL inferences can trigger new rule inferences, and rule inferences can trigger new DL inferences. The DFL system is the first to support a true dialog between a DL and a rule reasoners, that operate under different semantical policies, e.g., the open world assumption (OWA) for the DL reasoner, and the closed world assumption (CWA) for the rule reasoner. This architecture generalizes all existing hybrids of descriptions and rules.
Url:
DOI: 10.1016/S0169-023X(01)00032-5
Affiliations:
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Their expressive power is deliberately restricted, so as to enable efficient inference. A DL reasoner or knowledge base is intended to be embedded as a special purpose component in a heterogeneous knowledge base. Therefore, the development of integration frameworks of DLs and other forms of reasoning is essentially important. In this paper, we introduce a formal scheme for the integration of information sources for which a combined declarative semantics is not available. The integration is defined by a syntactic compositional semantics, and implemented by a dialog process in which the independent reasoners make their failures public. This scheme is used to formalize the integration of a DL reasoner with an expressive rule reasoner (for which a combined declarative semantics is not known). It is implemented in the DFL system, that integrates a DL reasoner and an F-Logic rule reasoner. The integrated system gives rise to a rich dialog between its components, since the DL inferences can trigger new rule inferences, and rule inferences can trigger new DL inferences. The DFL system is the first to support a true dialog between a DL and a rule reasoners, that operate under different semantical policies, e.g., the open world assumption (OWA) for the DL reasoner, and the closed world assumption (CWA) for the rule reasoner. 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