Title :
Formal Verification and Simulation: Co-verification for Subway Control Systems
Author :
Fang, Huixing ; Guo, Jian ; Zhu, Huibiao ; Shi, Jianqi
Author_Institution :
Shanghai Key Lab. of Trustworthy Comput., East China Normal Univ., Shanghai, China
Abstract :
For hybrid systems, hybrid automata based tools are capable of verification while Matlab Simulink/Stateflow is proficient in simulation. In this paper, a methodology is developed in which the formal verification tool PHAVer and simulation tool Matlab are integrated to analyze and verify hybrid systems. For application of this methodology, a Platform Screen Doors System (abbreviated as PSDS), a subsystem of the subway, is modeled with formal verification techniques based on hybrid automata and Matlab Simulink/Stateflow charts, respectively. The models of PSDS are simulated by Matlab and verified by PHAVer. It is verified that the sandwich situation can be avoided under time interval conditions. We conclude that this integration methodology is competent in verifying Platform Screen Doors System.
Keywords :
automata theory; formal verification; railways; Matlab Simulink; PHAVer; PSDS; co-verification method; formal verification techniques; hybrid automata based tools; platform screen doors system; subway control systems; Analytical models; Automata; Control systems; Libraries; MATLAB; Mathematical model; Safety; Formal Verification and Simulation; Hybrid System; Matlab Simulink/Stateflow; PHAVer; Subway Control System;
Conference_Titel :
Theoretical Aspects of Software Engineering (TASE), 2012 Sixth International Symposium on
Conference_Location :
Beijing
Print_ISBN :
978-1-4673-2353-6
DOI :
10.1109/TASE.2012.11
