The complexity of regular abstractions of one-counter languages

2016 31st Annual ACM/IEEE Symposium on Logic in Computer Science (LICS) Pub Date : 2016-02-10 DOI:10.1145/2933575.2934561

M. Atig, D. Chistikov, Piotr Hofman, K. Kumar, Prakash Saivasan, Georg Zetzsche

引用次数: 9

Abstract

We study the computational and descriptional complexity of the following transformation: Given a one-counter automaton (OCA) $\mathcal{A}$, construct a nondeterministic finite automaton (NFA) $\mathcal{B}$ that recognizes an abstraction of the language $\mathcal{L}\left( \mathcal{A} \right)$: its (1) downward closure, (2) upward closure, or (3) Parikh image. For the Parikh image over a fixed alphabet and for the upward and downward closures, we find polynomial-time algorithms that compute such an NFA. For the Parikh image with the alphabet as part of the input, we find a quasi-polynomial time algorithm and prove a completeness result: we construct a sequence of OCA that admits a polynomial-time algorithm iff there is one for all OCA. For all three abstractions, it was previously unknown whether appropriate NFA of sub-exponential size exist.

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单计数器语言的规则抽象的复杂性

我们研究了以下转换的计算和描述复杂性:给定一个单计数器自动机(OCA) $\mathcal{a}$，构造一个非确定性有限自动机(NFA) $\mathcal{B}$，该自动机识别语言$\mathcal{L}\左(\mathcal{a}\右)$的抽象:它的(1)向下闭包，(2)向上闭包，或(3)Parikh图像。对于固定字母上的Parikh图像以及向上和向下闭包，我们找到了计算这种NFA的多项式时间算法。对于包含字母作为输入的Parikh图像，我们找到了一个准多项式时间算法，并证明了一个完备性结果:我们构造了一个允许多项式时间算法的OCA序列，如果存在一个适用于所有OCA的多项式时间算法。对于这三个抽象，以前不知道是否存在合适的亚指数大小的NFA。

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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2016 31st Annual ACM/IEEE Symposium on Logic in Computer Science (LICS)

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