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Performance Evaluation of Metro Regulations Using Probabilistic Model-Checking

2019; Springer Science+Business Media; Linguagem: Inglês

10.1007/978-3-030-18744-6_4

1611-3349

Nathalie Bertrand, Benjamin Bordais, Loı̈c Hélouët, Thomas Mari, Julie Parreaux, Ocan Sankur,

Software Testing and Debugging Techniques

Metros are subject to unexpected delays due to weather conditions, incidents, passenger misconduct, etc. To recover from delays and avoid their propagation to the whole network, metro operators use regulation algorithms that adapt speeds and departure dates of trains. Regulation algorithms are ad-hoc tools tuned to cope with characteristics of tracks, rolling stock, and passengers habits. However, there is no universal optimal regulation adapted in any environment. So, performance of a regulation must be evaluated before its integration in a network. In this work, we use probabilistic model-checking to evaluate the performance of regulation algorithms in simple metro lines. We model the moves of trains and random delays with Markov decision processes, and regulation as a controller that forces a decision depending on its partial knowledge of the state of the system. We then use the probabilistic model checker PRISM to evaluate performance of regulation: We compute the probability to reach a stable situation from an unstable one in less than d time units, letting d vary in a large enough time interval. This approach is applied on a case study, the metro network of Glasgow.