Alternating complexity of counting first-order logic for the subword order

IF 0.4 4区 计算机科学 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS
Dietrich Kuske, Christian Schwarz
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引用次数: 3

Abstract

This paper considers the structure consisting of the set of all words over a given alphabet together with the subword relation, regular predicates, and constants for every word. We are interested in the counting extension of first-order logic by threshold counting quantifiers. The main result shows that the two-variable fragment of this logic can be decided in twofold exponential alternating time with linearly many alternations (and therefore in particular in twofold exponential space as announced in the conference version (Kuske and Schwarz, in: MFCS’20, Leibniz International Proceedings in Informatics (LIPIcs) vol. 170, pp 56:1–56:13. Schloss Dagstuhl - Leibniz-Zentrum für Informatik, 2020) of this paper) provided the regular predicates are restricted to piecewise testable ones. This result improves prior insights by Karandikar and Schnoebelen by extending the logic and saving one exponent in the space bound. Its proof consists of two main parts: First, we provide a quantifier elimination procedure that results in a formula with constants of bounded length (this generalises the procedure by Karandikar and Schnoebelen for first-order logic). From this, it follows that quantification in formulas can be restricted to words of bounded length, i.e., the second part of the proof is an adaptation of the method by Ferrante and Rackoff to counting logic and deviates significantly from the path of reasoning by Karandikar and Schnoebelen.

子字顺序的一阶逻辑计数的交替复杂性
本文考虑了由给定字母表上所有单词的集合以及每个单词的子词关系、规则谓词和常量组成的结构。我们感兴趣的是通过阈值计数量词对一阶逻辑的计数扩展。主要结果表明,该逻辑的双变量片段可以在具有线性多变化的双指数交替时间中确定(因此特别是在会议版本中宣布的双指数空间中)(Kuske和Schwarz, in: MFCS ' 20, Leibniz International Proceedings in Informatics (LIPIcs) vol. 170, pp 56:1-56:13)。Schloss Dagstuhl - Leibniz-Zentrum fr Informatik, 2020)提供了正则谓词限制为分段可测试的谓词。这个结果改进了Karandikar和Schnoebelen先前的见解,扩展了逻辑并在空间界中节省了一个指数。它的证明由两个主要部分组成:首先,我们提供了一个量词消去过程,得到一个有界长度常数的公式(这推广了Karandikar和Schnoebelen在一阶逻辑中的过程)。由此可以得出,公式中的量化可以被限制在有界长度的词中,即证明的第二部分是Ferrante和Rackoff对计数逻辑方法的改编,明显偏离了Karandikar和Schnoebelen的推理路径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Acta Informatica
Acta Informatica 工程技术-计算机:信息系统
CiteScore
2.40
自引率
16.70%
发文量
24
审稿时长
>12 weeks
期刊介绍: Acta Informatica provides international dissemination of articles on formal methods for the design and analysis of programs, computing systems and information structures, as well as related fields of Theoretical Computer Science such as Automata Theory, Logic in Computer Science, and Algorithmics. Topics of interest include: • semantics of programming languages • models and modeling languages for concurrent, distributed, reactive and mobile systems • models and modeling languages for timed, hybrid and probabilistic systems • specification, program analysis and verification • model checking and theorem proving • modal, temporal, first- and higher-order logics, and their variants • constraint logic, SAT/SMT-solving techniques • theoretical aspects of databases, semi-structured data and finite model theory • theoretical aspects of artificial intelligence, knowledge representation, description logic • automata theory, formal languages, term and graph rewriting • game-based models, synthesis • type theory, typed calculi • algebraic, coalgebraic and categorical methods • formal aspects of performance, dependability and reliability analysis • foundations of information and network security • parallel, distributed and randomized algorithms • design and analysis of algorithms • foundations of network and communication protocols.
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