信息物理系统中动态和随机行为的工具支持分析

2019 IEEE 19th International Conference on Software Quality, Reliability and Security (QRS) Pub Date : 2019-07-01 DOI:10.1109/QRS.2019.00039

Li Huang, Tian Liang, E. Kang

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引用次数: 8

摘要

功能和非功能需求的形式化分析在网络物理系统(CPS)中至关重要，其中控制器与物理环境相互作用。CPS的连续时间行为往往依赖于复杂动力学和随机行为。我们之前提出了时钟约束规范语言的概率扩展，称为PrCCSL，用于CPS(非)功能需求的规范，并通过将规范的语义映射到可验证的UPPAAL模型来证明需求的正确性。本文对前人的工作进行了扩展，包括PrCCSL的扩展，即PrCCSL*，它包含了CPS的连续行为和随机特征的注释。CPS行为在PrCCSL*中指定，并转换为随机UPPAAL模型进行形式化验证。提供了PrCCSL*到UPPAAL模型的翻译算法，并在自动翻译工具ProTL中实现。CPS对(非)功能需求的正式验证由ProTL使用uppal - smc作为分析后端执行。我们的方法在一系列CPS案例研究中得到了演示。

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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Tool-Supported Analysis of Dynamic and Stochastic Behaviors in Cyber-Physical Systems

Formal analysis of functional and non-functional requirements is crucial in cyber-physical systems (CPS), in which controllers interact with physical environments. The continuous time behaviors of CPS often rely on complex dynamics as well as on stochastic behaviors. We have previously proposed a probabilistic extension of Clock Constraint Specification Language, called PrCCSL, for specification of (non)-functional requirements of CPS and proved the correctness of requirements by mapping the semantics of the specifications into verifiable UPPAAL models. Previous work is extended in this paper by including an extension of PrCCSL, i.e., PrCCSL*, which incorporates annotations of continuous behaviors and stochastic characteristics of CPS. The CPS behaviors are specified in PrCCSL* and translated into stochastic UPPAAL models for formal verification. The translation algorithm from PrCCSL* into UPPAAL models is provided and implemented in an automatic translation tool, namely ProTL. Formal verification of CPS against (non)-functional requirements is performed by ProTL using UPPAAL-SMC as an analysis backend. Our approach is demonstrated on a series of CPS case studies.

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2019 IEEE 19th International Conference on Software Quality, Reliability and Security (QRS)

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