Quantitative analysis and model checking

Proceedings of Twelfth Annual IEEE Symposium on Logic in Computer Science Pub Date : 1997-06-29 DOI:10.1109/LICS.1997.614940

M. Huth, M. Kwiatkowska

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引用次数: 156

Abstract

Many notions of models in computer science provide quantitative information, or uncertainties, which necessitate a quantitative model checking paradigm. We present such a framework for reactive and generative systems based on a non-standard interpretation of the modal mu-calculus, where /spl mu/x./spl phi//vx./spl phi/ are interpreted as least/greatest fired points over the infinite lattice of maps from states to the unit interval. By letting formulas denote lower bounds of probabilistic evidence of properties, the values computed by our quantitative model checker can serve as satisfactory correctness guarantees in cases where conventional qualitative model checking fails. Since fixed point iteration in this infinite domain is computationally unfeasible, we establish that the computation of fixed points may be restated as a conventional, and on average efficient, optimization problem in linear programming; this holds for a fragment of the modal mu-calculus which subsumes CTL. Our semantics induces a state equivalence which is strictly in between probabilistic bisimulation and probabilistic ready bisimulation.

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定量分析和模型检验

计算机科学中的许多模型概念提供定量信息或不确定性，这需要定量模型检查范式。我们基于模态mu-演算的非标准解释提出了反应式和生成式系统的框架，其中/spl mu/x。/ / vx splφ。/spl /被解释为从状态到单位区间的映射的无限晶格上的最小/最大发射点。通过让公式表示属性的概率证据的下界，我们的定量模型检查器计算的值可以在常规定性模型检查失败的情况下作为令人满意的正确性保证。由于不动点迭代在这个无限域中在计算上是不可行的，我们建立了不动点的计算可以重述为线性规划中的一个常规的、平均有效的优化问题;这适用于包含CTL的模态模微积分的片段。我们的语义推导出一种严格介于概率双模拟和概率准备双模拟之间的状态等价。

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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Proceedings of Twelfth Annual IEEE Symposium on Logic in Computer Science

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