基于多子句协同矛盾分离的一阶定理证明器- MC-SCS

2017 12th International Conference on Intelligent Systems and Knowledge Engineering (ISKE) Pub Date : 2017-11-01 DOI:10.1109/ISKE.2017.8258793

Jian Zhong, Feng Cao, Guanfeng Wu, Yang Xu, Jun Liu

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引用次数: 2

摘要

在将“矛盾”一词从传统上定义的基于两个子句的互补对扩展到典型的不可满足子句集(即可能包含两个以上子句的标准矛盾)之后，最近，同一作者小组的一项工作提出了一种新的推理原理及其完善的一阶理论框架，以摆脱现有的静态二元分解，成为一种基于多子句协同矛盾分离的动态推理规则，这种推理规则与二元分解有本质区别，但将二元分解作为其特例。相应的一阶自动扣除系统称为MC-SCS。本文重点介绍了MC-SCS的推理算法方案、证明过程、实现和实验结果。与现有的一些一阶定理证明相比，本文的实证评价结果令人满意。

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Multi-clause synergized contradiction separation based first-order theorem prover — MC-SCS

After extending the term "contradiction" from the traditionally defined a complementary pair based on two clauses into a typical unsatisfiable clause set (i.e., a standard contradiction which might consist of more than two clauses), a recent work by the same author group proposes a new inference principle and its sound and complete first-order theory framework to escape from the existing static binary resolution into a dynamic Multi-Clause Synergized Contradiction Separation based inference rule, which is essentially different from the multi-ary resolution, but includes binary resolution as its special case. The corresponding first-order automated deduction system is called MC-SCS. This present work focuses on the MC-SCS's reasoning algorithm scheme, proof procedure, implementation, and experimental results. The empirical evaluation shows promising results compared with some state of art first-order theorem provers.

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2017 12th International Conference on Intelligent Systems and Knowledge Engineering (ISKE)

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