Strong Equivalence of Logic Programs with Ordered Disjunction: A Logical Perspective

IF 1.4 2区数学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING Theory and Practice of Logic Programming Pub Date : 2022-05-10 DOI:10.1017/S1471068422000242

A. Charalambidis, C. Nomikos, P. Rondogiannis

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Abstract

Abstract Logic Programs with Ordered Disjunction (LPODs) extend classical logic programs with the capability of expressing preferential disjunctions in the heads of program rules. The initial semantics of LPODs, although simple and quite intuitive, is not purely model-theoretic. As a result, certain properties of programs appear non-trivial to formalize in purely logical terms. For example, the current characterization of strong equivalence for LPODs, does not coincide with logical equivalence in some specific logic. This comes in sharp contrast with the well-known characterization of strong equivalence for classical logic programs, which coincides with logical equivalence in the logic of here-and-there. In this paper we obtain a purely logical characterization of strong equivalence for LPODs as logical equivalence in a four-valued logic. Moreover, we provide a new proof of the coNP-completeness of strong equivalence for LPODs, which has an interest in its own right since it relies on the special structure of such programs. Our results are based on the recent logical semantics of LPODs, a fact which we believe indicates that this new semantics may prove to be a useful tool in the further study of LPODs.

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具有有序析取的逻辑程序的强等价性:一个逻辑透视图

有序析取逻辑程序(LPODs)是对经典逻辑程序的扩展，具有在程序规则头部表示优先析取的能力。LPODs的初始语义虽然简单且非常直观，但并不是纯粹的模型理论。因此，程序的某些属性在用纯逻辑术语形式化时显得很重要。例如，目前对LPODs的强等价的描述，并不符合某些特定逻辑中的逻辑等价。这与经典逻辑程序中众所周知的强等价特性形成鲜明对比，后者与这里和那里的逻辑等价一致。在四值逻辑中，我们得到了LPODs的强等价的一个纯逻辑刻画。此外，我们还提供了LPODs强等价的conp -完备性的一个新的证明，由于它依赖于这类规划的特殊结构，因此具有其自身的意义。我们的研究结果是基于最近LPODs的逻辑语义，我们相信这一事实表明这种新的语义可能被证明是LPODs进一步研究的有用工具。

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来源期刊

Theory and Practice of Logic Programming 工程技术-计算机：理论方法

CiteScore

4.50

自引率

21.40%

发文量

审稿时长

>12 weeks

期刊介绍： Theory and Practice of Logic Programming emphasises both the theory and practice of logic programming. Logic programming applies to all areas of artificial intelligence and computer science and is fundamental to them. Among the topics covered are AI applications that use logic programming, logic programming methodologies, specification, analysis and verification of systems, inductive logic programming, multi-relational data mining, natural language processing, knowledge representation, non-monotonic reasoning, semantic web reasoning, databases, implementations and architectures and constraint logic programming.

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