On the Boundedness Problem for Higher-Order Pushdown Vector Addition Systems

Foundations of Software Technology and Theoretical Computer Science Pub Date : 2018-11-23 DOI:10.4230/LIPIcs.FSTTCS.2018.44

Vincent Penelle, Sylvain Salvati, G. Sutre

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Abstract

Karp and Miller's algorithm is a well-known decision procedure that solves the termination and boundedness problems for vector addition systems with states (VASS), or equivalently Petri nets. This procedure was later extended to a general class of models, well-structured transition systems, and, more recently, to pushdown VASS. In this paper, we extend pushdown VASS to higher-order pushdown VASS (called HOPVASS), and we investigate whether an approach a la Karp and Miller can still be used to solve termination and boundedness. We provide a decidable characterisation of runs that can be iterated arbitrarily many times, which is the main ingredient of Karp and Miller's approach. However, the resulting Karp and Miller procedure only gives a semi-algorithm for HOPVASS. In fact, we show that coverability, termination and boundedness are all undecidable for HOPVASS, even in the restricted subcase of one counter and an order 2 stack. On the bright side, we prove that this semi-algorithm is in fact an algorithm for higher-order pushdown automata.

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高阶下压向量加法系统的有界性问题

Karp和Miller的算法是一个著名的决策过程，它解决了有状态向量相加系统(VASS)或等价的Petri网的终止性和有界性问题。这个过程后来扩展到一般类型的模型，结构良好的转换系统，以及最近的VASS。本文将下推VASS扩展到高阶下推VASS(称为HOPVASS)，并研究了la Karp和Miller的方法是否仍然可以用于解决终止性和有界性问题。我们提供了可以任意迭代多次的可确定的运行特征，这是Karp和Miller方法的主要成分。然而，所得到的Karp和Miller过程只给出了HOPVASS的半算法。事实上，我们证明了HOPVASS的可覆盖性、终止性和有界性都是不可判定的，即使在一个计数器和一个2阶堆栈的受限子情况下也是如此。好的一面是，我们证明了这种半算法实际上是一种高阶下推自动机的算法。

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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Foundations of Software Technology and Theoretical Computer Science

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