Modeling and Verification for Timing Satisfaction of Fault-Tolerant Systems with Finiteness

2009 13th IEEE/ACM International Symposium on Distributed Simulation and Real Time Applications Pub Date : 2009-05-25 DOI:10.1109/DS-RT.2009.20

Chih-Hong Cheng, C. Buckl, J. Esparza, A. Knoll

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引用次数: 2

Abstract

The increasing use of model-based tools enables further use of formal verification techniques in the context of distributed real-time systems. To avoid state explosion, it is necessary to construct verification models that focus on the aspects under consideration.In this paper, we discuss how we construct a verification model for timing analysis in distributed real-time systems.We (1) give observations concerning restrictions of timed automata to model these systems,(2) formulate mathematical representations on how to perform model-to-model transformation to derive verification models from system models, and (3) propose some theoretical criteria how to reduce the model size. The latter is in particular important, as for the verification of complex systems, an efficient model reflecting the properties of the system under consideration is equally important to the verification algorithm itself.Finally, we present an extension of the model-based development tool FTOS, designed to develop fault-tolerant systems, to demonstrate our approach.

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有限容错系统定时满足的建模与验证

越来越多地使用基于模型的工具使得在分布式实时系统的环境中进一步使用形式化验证技术成为可能。为了避免状态爆炸，有必要构建针对所考虑的方面的验证模型。本文讨论了如何建立分布式实时系统中时序分析的验证模型。我们(1)给出了关于时间自动机对这些系统建模的限制的观察，(2)制定了如何进行模型到模型转换以从系统模型中导出验证模型的数学表示，以及(3)提出了如何减小模型大小的一些理论准则。后者尤为重要，对于复杂系统的验证，一个反映所考虑系统属性的有效模型与验证算法本身同样重要。最后，我们提出了基于模型的开发工具FTOS的扩展，旨在开发容错系统，以演示我们的方法。

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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2009 13th IEEE/ACM International Symposium on Distributed Simulation and Real Time Applications

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