论文信息 - Taxonomic Reasoning with Cycles in LOGIDATA+

Taxonomic Reasoning with Cycles in LOGIDATA+

This paper shows the subsumption computation techniques for a LOGIDATA+ schema allowing cyclic definitions for classes. The formal framework LOGIDATACYC*, which extends LOGIDATA* to perform taxonomic reasoning in the presence of cyclic class definitions is introduced. It includes the notions of possible instances of a schema; legal instance of a schema, defined as the greatest fixed-point of possible instances; subsumption relation. On the basis of this framework, the definitions of coherent type and consistent class are introduced and the necessary algorithms to detect incoherence and compute subsumption in a LOGIDATA+ schema are given. Some examples of subsumption computation show its feasibility for schema design and validation.

[1] David A. Schmidt,et al. Denotationaisemantics: a methodology for language development , 1986 .

[2] Bernhard Nebel,et al. Terminological Cycles: Semantics and Computational Properties , 1991, Principles of Semantic Networks.

[3] Gabriel M. Kuper,et al. A new approach to database logic , 1984, PODS.

[4] Franz Baader,et al. Terminological Cycles in KL-ONE-based Knowledge Representation Languages , 1990, AAAI.

[5] Domenico Beneventano,et al. Subsumption for Complex Object Data Models , 1992, ICDT.

[6] J. Lloyd. Foundations of Logic Programming , 1984, Symbolic Computation.

[7] Christophe Lécluse,et al. The O2 Database Programming Language , 1989, Building an Object-Oriented Database System, The Story of O2.