A set-theoretical approach for ABox reasoning services (Extended Version)

Abstract

In this paper we consider the most common ABox reasoning services for the description logic DL 4LQSR,\!×(D) (DLD4,\!×, for short) and prove their decidability via a reduction to the satisfiability problem for the set-theoretic fragment . The description logic DLD4,\!× is very expressive, as it admits various concept and role constructs, and data types, that allow one to represent rule-based languages such as SWRL. Decidability results are achieved by defining a generalization of the conjunctive query answering problem, called HOCQA (Higher Order Conjunctive Query Answering), that can be instantiated to the most wide\-spread ABox reasoning tasks. We also present a based procedure for calculating the answer set from DLD4,\!× knowledge bases and higher order DLD4,\!× conjunctive queries, thus providing means for reasoning on several well-known ABox reasoning tasks. Our calculus extends a previously introduced based decision procedure for the CQA problem.