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Nonuniform Sampling Control for Multibody High-Speed Train Systems With Quantization Mechanisms via Stochastic Faded Channels

Wei Yu, Deqing Huang, Qingyuan Wang, Xiaoyun Feng

2022IEEE Transactions on Intelligent Transportation Systems17 citationsDOI

Abstract

This paper studies the dissipative control problem of the multibody high-speed train (HST) systems with nonuniform sampling mechanisms and logarithmic quantizers, in which the transmitted signals are subject to random fading phenomenon. The tracking error dynamic model of HST is firstly established and the logarithmic quantizers for both the input and output (I/O) signals are designed. The faded I/O signals are described by the Rice fading model, in which the mathematical expectation and variance are given in advance. Then, based on the Lyapunov-Krasovskii functional approach with the consideration of time-varying delay, sufficient conditions are derived to ensure the convergence of tracking error and that HST is strictly dissipative. Further, the design method of the gain matrix is obtained by employing the linear matrix inequalities (LMI) techniques and a compensation algorithm is designed to offset the adverse effect brought by the fading measurements. Finally, the effectiveness of the proposed controller is verified by a numerical example from Japan Shinkansen HST.

Topics & Concepts

FadingControl theory (sociology)Dissipative systemTracking errorQuantization (signal processing)LogarithmMathematicsComputer scienceOffset (computer science)AlgorithmControl (management)Mathematical analysisArtificial intelligenceProgramming languageQuantum mechanicsDecoding methodsPhysicsRailway Systems and Energy EfficiencyRailway Engineering and DynamicsWireless Communication Networks Research