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Logic and Branching Automata

arXiv: Formal Languages and Automata Theory Pub Date : 2015-07-10 DOI:10.2168/LMCS-11(4:2)2015
Bedon Nicolas
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引用次数: 3

Abstract

In this paper we study the logical aspects of branching automata, as defined by Lodaya and Weil. We first prove that the class of languages of finite N-free posets recognized by branching automata is closed under complementation. Then we define a logic, named P-MSO as it is a extension of monadic second-order logic with Presburger arithmetic, and show that it is precisely as expressive as branching automata. As a consequence of the effectiveness of the construction of one formalism from the other, the P-MSO theory of the class of all finite N-free posets is decidable.
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逻辑和分支自动机
本文研究了Lodaya和Weil定义的分支自动机的逻辑方面。首先证明了由分支自动机识别的有限n自由序集语言在互补下是封闭的。然后,我们定义了一种逻辑,命名为P-MSO,因为它是一元二阶逻辑的扩展,具有Presburger算法,并证明了它与分支自动机一样具有精确的表达能力。作为一种形式建构另一种形式的有效性的结果,所有有限n自由序集类的P-MSO理论是可决定的。
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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arXiv: Formal Languages and Automata Theory
arXiv: Formal Languages and Automata Theory
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