Litcius/Paper detail

Attack-Resilient Distributed Cooperative Control of Virtually Coupled High-Speed Trains via Topology Reconfiguration

Shunyuan Xiao, Xiaohua Ge, Qing Wu

2024IEEE/CAA Journal of Automatica Sinica11 citationsDOIOpen Access PDF

Abstract

Dear Editor, This letter addresses the resilient distributed cooperative control problem of a virtually coupled train convoy under stochastic disturbances and cyber attacks. The main purpose is to achieve distributed coordination of virtually coupled high-speed trains with the prescribed inter-train distance and same cruise velocity, while preserving driving security of the train convoy against a class of topological attacks. First, a resilient distributed cooperative control framework of the virtually coupled train convoy is established, which incorporates the longitudinal train dynamics, stochastic disturbances, and topological attacks on inter-train information flows. Building on that, a distributed cooperative control protocol and a topology reconfiguration algorithm are designed for attack-resilient train convoy tracking. Furthermore, a formal stability analysis is performed for the exponential convergence of the convoy tracking errors. Finally, a numerical case study on a 56 km-line segment of a real-world high-speed railway is carried out to validate the efficacy of our results.

Topics & Concepts

Control reconfigurationTopology (electrical circuits)TrainComputer scienceControl (management)Distributed computingEngineeringEmbedded systemElectrical engineeringGeographyArtificial intelligenceCartographyRailway Systems and Energy EfficiencyAdvanced Optical Network Technologies