Learning Probabilistic Automata for Model Checking

2011 Eighth International Conference on Quantitative Evaluation of SysTems Pub Date : 2011-09-05 DOI:10.1109/QEST.2011.21

Hua Mao, Yingke Chen, M. Jaeger, Thomas D. Nielsen, K. Larsen, B. Nielsen

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引用次数: 58

Abstract

Obtaining accurate system models for verification is a hard and time consuming process, which is seen by industry as a hindrance to adopt otherwise powerful model driven development techniques and tools. In this paper we pursue an alternative approach where an accurate high-level model can be automatically constructed from observations of a given black-box embedded system. We adapt algorithms for learning finite probabilistic automata from observed system behaviors. We prove that in the limit of large sample sizes the learned model will be an accurate representation of the data-generating system. In particular, in the large sample limit, the learned model and the original system will define the same probabilities for linear temporal logic (LTL) properties. Thus, we can perform PLTL model-checking on the learned model to infer properties of the system. We perform experiments learning models from system observations at different levels of abstraction. The experimental results show the learned models provide very good approximations for relevant properties of the original system.

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用于模型检查的学习概率自动机

为验证获得准确的系统模型是一个困难且耗时的过程，这被业界视为采用其他强大的模型驱动开发技术和工具的障碍。在本文中，我们追求一种替代方法，其中可以从给定黑盒嵌入式系统的观察中自动构建精确的高级模型。我们采用算法从观察到的系统行为中学习有限概率自动机。我们证明了在大样本量的限制下，学习模型将是数据生成系统的准确表示。特别是，在大样本限制下，学习模型和原始系统将为线性时间逻辑(LTL)属性定义相同的概率。因此，我们可以对学习的模型进行PLTL模型检查，以推断系统的属性。我们从不同抽象层次的系统观察中进行实验学习模型。实验结果表明，所学习的模型能很好地逼近原系统的相关特性。

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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2011 Eighth International Conference on Quantitative Evaluation of SysTems

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