Formal Verification of Dynamic and Stochastic Behaviors for Automotive Systems
October 31, 2019 Β· Declared Dead Β· π IEEE International Conference on Engineering of Complex Computer Systems
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Authors
Li Huang, Tian Liang, Eun-Young Kang
arXiv ID
1910.14312
Category
cs.SE: Software Engineering
Citations
6
Venue
IEEE International Conference on Engineering of Complex Computer Systems
Last Checked
4 months ago
Abstract
Formal analysis of functional and non-functional requirements is crucial in automotive systems. The behaviors of those systems often rely on complex dynamics as well as on stochastic behaviors. We have proposed a probabilistic extension of Clock Constraint Specification Language, called PrCCSL,for specification of (non)-functional requirements and proved the correctness of requirements by mapping the semantics of the specifications into UPPAAL models. Previous work is extended in this paper by including an extension of PrCCSL, called PrCCSL*, for specification of stochastic and dynamic system behaviors, as well as complex requirements related to multiple events. To formally analyze the system behaviors/requirements specified in PrCCSL*, the PrCCSL* specifications are translated into stochastic UPPAAL models for formal verification. We implement an automatic translation tool, namely ProTL, which can also perform formal analysis on PrCCSL* specifications using UPPAAL-SMC as an analysis backend. Our approach is demonstrated on two automotive systems case studies.
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