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|Abstract=The Knowledge Acquisition and Representation Language (KARL) combines a description of a knowledge-based system (kbs) at the conceptual level (a so-called model of expertise) with a description at a formal and executable level. It is a specification language which allows the precise and unique description of a kbs independently from implementational details. In the paper, KARL is mainly discussed as a formal language. That is, the paper introduces a formal semantics for KARL. Because KARL allows the representation of static and dynamic (i.e., procedural) knowledge, its semantics must integrate both types of knowledge. First, an object-oriented logic L-KARL was developed which can be used to specify static knowledge. Second, dynamic logic was used to de velop P-KARL for specifying knowledge about dynamics. Third, both languages had to be combined to represent a complete model of expertise. As a result, the integrated description of static and dynamic knowledge based on a well-defined declarative framework becomes possible. | |Abstract=The Knowledge Acquisition and Representation Language (KARL) combines a description of a knowledge-based system (kbs) at the conceptual level (a so-called model of expertise) with a description at a formal and executable level. It is a specification language which allows the precise and unique description of a kbs independently from implementational details. In the paper, KARL is mainly discussed as a formal language. That is, the paper introduces a formal semantics for KARL. Because KARL allows the representation of static and dynamic (i.e., procedural) knowledge, its semantics must integrate both types of knowledge. First, an object-oriented logic L-KARL was developed which can be used to specify static knowledge. Second, dynamic logic was used to de velop P-KARL for specifying knowledge about dynamics. Third, both languages had to be combined to represent a complete model of expertise. As a result, the integrated description of static and dynamic knowledge based on a well-defined declarative framework becomes possible. | ||
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Aktuelle Version vom 16. Oktober 2009, 17:33 Uhr
The Specification Language KARL and Its Declarative Semantics
The Specification Language KARL and Its Declarative Semantics
Published: 1994
September
Buchtitel: Proceedings of the IS-CORE94 Workshop, Amsterdam, September 27-30, 1994, research report, Free University of Amsterdam
Referierte Veröffentlichung
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Kurzfassung
The Knowledge Acquisition and Representation Language (KARL) combines a description of a knowledge-based system (kbs) at the conceptual level (a so-called model of expertise) with a description at a formal and executable level. It is a specification language which allows the precise and unique description of a kbs independently from implementational details. In the paper, KARL is mainly discussed as a formal language. That is, the paper introduces a formal semantics for KARL. Because KARL allows the representation of static and dynamic (i.e., procedural) knowledge, its semantics must integrate both types of knowledge. First, an object-oriented logic L-KARL was developed which can be used to specify static knowledge. Second, dynamic logic was used to de velop P-KARL for specifying knowledge about dynamics. Third, both languages had to be combined to represent a complete model of expertise. As a result, the integrated description of static and dynamic knowledge based on a well-defined declarative framework becomes possible.
Download: Media:1994_669_Fensel_The_Specificati_1.ps.gz