具有参数更新的定时自动机

2018 18th International Conference on Application of Concurrency to System Design (ACSD) Pub Date : 2018-06-01 DOI:10.1109/ACSD.2018.000-2

É. André, D. Lime, Mathias Ramparison

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引用次数: 5

摘要

时间自动机(ta)代表了一种强大的形式，可以对并发性与硬定时约束混合的系统进行建模和验证。然而，在处理不确定或未知的时间常数时，它们似乎有限。文献中提出了几个参数扩展，其中绝大多数导致ef空性问题的不可判定性:“给定位置可达的赋值集是空的吗?”这里，我们研究TAs的扩展，其中时钟可以更新为参数。对于有理值参数，ef空性问题是不可判定的，而对于整数值参数，ef空性问题是pspace完备的。此外，还可以实现参数估值集的精确综合。我们还将这两个结果推广到ef -普适性(“是否所有赋值都使得给定位置是可达的?”)，af -空性(“是否所有赋值的集合使得给定位置是不可避免的空的?”)和af -普适性(“是否所有赋值都使得给定位置是不可避免的?”)问题。

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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Timed Automata with Parametric Updates

Timed automata (TAs) represent a powerful formalism to model and verify systems where concurrency is mixed with hard timing constraints. However, they can seem limited when dealing with uncertain or unknown timing constants. Several parametric extensions were proposed in the literature, and the vast majority of them leads to the undecidability of the EF-emptiness problem: "is the set of valuations for which a given location is reachable empty?" Here, we study an extension of TAs where clocks can be updated to a parameter. While the EF-emptiness problem is undecidable for rational-valued parameters, it becomes PSPACE-complete for integer-valued parameters. In addition, exact synthesis of the parameter valuations set can be achieved. We also extend these two results to the EF-universality ("are all valuations such that a given location is reachable?"), AF-emptiness ("is the set of valuations for which a given location is unavoidable empty?") and AF-universality ("are all valuations such that a given location is unavoidable?") problems.

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2018 18th International Conference on Application of Concurrency to System Design (ACSD)

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