Reachability in Two-Parametric Timed Automata with one Parameter is EXPSPACE-Complete

IF 0.6 4区 计算机科学 Q4 COMPUTER SCIENCE, THEORY & METHODS
Stefan Göller, Mathieu Hilaire
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引用次数: 0

Abstract

Abstract Parametric timed automata (PTA) have been introduced by Alur, Henzinger, and Vardi as an extension of timed automata in which clocks can be compared against parameters. The reachability problem asks for the existence of an assignment of the parameters to the non-negative integers such that reachability holds in the underlying timed automaton. The reachability problem for PTA is long known to be undecidable, already over three parametric clocks. A few years ago, Bundala and Ouaknine proved that for PTA over two parametric clocks and one parameter the reachability problem is decidable and also showed a lower bound for the complexity class P S P A C E N E X P . Our main result is that the reachability problem for two-parametric timed automata with one parameter is E X P S P A C E -complete. Our contribution is two-fold. For the E X P S P A C E lower bound, inspired by [13, 14], we make use of deep results from complexity theory, namely a serializability characterization of E X P S P A C E (in turn based on Barrington’s Theorem) and a logspace translation of numbers in Chinese remainder representation to binary representation due to Chiu, Davida, and Litow. It is shown that with small PTA over two parametric clocks and one parameter one can simulate serializability computations. For the E X P S P A C E upper bound, we first give a careful exponential time reduction from PTA over two parametric clocks and one parameter to a (slight subclass of) parametric one-counter automata over one parameter based on a minor adjustment of a construction due to Bundala and Ouaknine. For solving the reachability problem for parametric one-counter automata with one parameter, we provide a series of techniques to partition a fictitious run into several carefully chosen subruns that allow us to prove that it is sufficient to consider a parameter value of exponential magnitude only. This allows us to show a doubly-exponential upper bound on the value of the only parameter of a PTA over two parametric clocks and one parameter. We hope that extensions of our techniques lead to finally establishing decidability of the long-standing open problem of reachability in parametric timed automata with two parametric clocks (and arbitrarily many parameters) and, if decidability holds, determinining its precise computational complexity.

Abstract Image

单参数双参数时间自动机的可达性是expspace完全的
参数时间自动机(PTA)由Alur, Henzinger和Vardi作为时间自动机的扩展引入,其中时钟可以与参数进行比较。可达性问题要求参数赋值给非负整数的存在性,使得可达性在底层时间自动机中保持。PTA的可达性问题早已被认为是无法确定的,已经超过了三个参数时钟。几年前,Bundala和Ouaknine证明了对于具有两个参数时钟和一个参数的PTA,可达性问题是可决定的,并给出了复杂度类P S P A C E N E X P的下界。我们的主要研究结果是,单参数双参数时间自动机的可达性问题是E X P S P A C E完备的。我们的贡献是双重的。对于E X P S P A C E下界,受到[13,14]的启发,我们利用了复杂性理论的深层结果,即E X P S P A C E的可串行性表征(反过来基于Barrington定理),以及Chiu, Davida和Litow将中文剩余表示中的数字转换为二进制表示。结果表明,在两个参数时钟和一个参数时钟上使用较小的PTA可以模拟串行性计算。对于E X P S P A C E上界,我们首先给出了一个仔细的指数时间缩减,从两个参数时钟和一个参数的PTA到一个参数单计数器自动机的(轻微子类),基于对Bundala和Ouaknine构造的轻微调整。为了解决具有一个参数的参数单计数器自动机的可达性问题,我们提供了一系列技术,将虚拟运行划分为几个精心选择的子组,使我们能够证明仅考虑指数量级的参数值是足够的。这允许我们在两个参数时钟和一个参数上显示PTA的唯一参数值的双指数上界。我们希望我们的技术的扩展导致最终建立具有两个参数时钟(和任意多个参数)的参数时间自动机中可达性的长期开放问题的可判定性,并且,如果可判定性成立,确定其精确的计算复杂性。
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
Theory of Computing Systems
Theory of Computing Systems 工程技术-计算机:理论方法
CiteScore
1.90
自引率
0.00%
发文量
36
审稿时长
6-12 weeks
期刊介绍: TOCS is devoted to publishing original research from all areas of theoretical computer science, ranging from foundational areas such as computational complexity, to fundamental areas such as algorithms and data structures, to focused areas such as parallel and distributed algorithms and architectures.
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