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Validation and real-life demonstration of ETCS hybrid level 3 principles using a formal B model

Dominik Hansen, Michaël Leuschel, Philipp Körner, Sebastian Krings, Thomas Naulin, Nader Nayeri, David C. Schneider, Frank Skowron

2020International Journal on Software Tools for Technology Transfer34 citationsDOIOpen Access PDF

Abstract

Abstract In this article, we present a concrete realisation of the ETCS hybrid level 3 concept, whose practical viability was evaluated in a field demonstration in 2017. Hybrid level 3 introduces virtual subsections as sub-divisions of classical track sections with trackside train detection. Our approach introduces an add-on for the radio block centre (RBC) of Thales, called virtual block function (VBF), which computes the occupation states of the virtual subsections using the train position reports, train integrity information, and the track occupation states. From the perspective of the RBC, the VBF behaves as an interlocking that transmits all signal aspects for virtual signals introduced for each virtual subsection to the RBC. We report on the development of the VBF, implemented as a formal B model executed at runtime using ProB and successfully used in a field demonstration to control real trains.

Topics & Concepts

Computer scienceTrainTheory of computationInterlockingBlock (permutation group theory)Field (mathematics)Track (disk drive)SIGNAL (programming language)Perspective (graphical)Real-time computingAlgorithmProgramming languageArtificial intelligenceOperating systemReliability engineeringGeographyMathematicsCartographyPure mathematicsGeometryEngineeringRailway Systems and Energy EfficiencyTransportation Systems and SafetyRailway Engineering and Dynamics
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