Virtual coupling-based H∞ active fault-tolerant cooperative control for multiple high-speed trains with unknown parameters and actuator faults

This paper investigates the cooperative control problem of multiple high-speed trains subject to unknown parameters and actuator faults. The cooperative operation of multiple high-speed trains is modeled as a coupled control system. On the basis of the virtual coupling technique, the H ∞ active faul...

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Published in	IEEE journal on emerging and selected topics in circuits and systems Vol. 13; no. 3; p. 1
Main Authors	Lin, Xue, Bai, Weiqi, Wang, Qianling, Yu, Shajia
Format	Journal Article
Language	English
Published	Piscataway IEEE 01.09.2023 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Active control Actuators Adaptive control Block signalling Circuit faults Closed loops Cooperative control Coupling Couplings Fault tolerance Fault tolerant systems fault-tolerant control H-infinity control High speed rail Linear matrix inequalities Mathematical models multiple high-speed trains Parameters Resistance Stability analysis virtual coupling
Online Access	Get full text
ISSN	2156-3357 2156-3365
DOI	10.1109/JETCAS.2023.3288874

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Abstract	This paper investigates the cooperative control problem of multiple high-speed trains subject to unknown parameters and actuator faults. The cooperative operation of multiple high-speed trains is modeled as a coupled control system. On the basis of the virtual coupling technique, the H ∞ active fault-tolerant cooperative control scheme is established to guarantee the desired tracking performances and cooperative performances. The adaptive control technique is adopted to estimate the unknown Davis' coefficients and the fault parameters and linear matrix inequalities are utilized to derive the control gain of the cooperative control protocols for the trains. Rigorous analysis is provided to corroborate the closed-loop stability of the cooperative train control system and numerical simulation is conducted to verify the effectiveness and feasibility of the proposed results.
AbstractList	This paper investigates the cooperative control problem of multiple high-speed trains subject to unknown parameters and actuator faults. The cooperative operation of multiple high-speed trains is modeled as a coupled control system. On the basis of the virtual coupling technique, the [Formula Omitted] active fault-tolerant cooperative control scheme is established to guarantee the desired tracking performances and cooperative performances. The adaptive control technique is adopted to estimate the unknown Davis’ coefficients and the fault parameters and linear matrix inequalities are utilized to derive the control gain of the cooperative control protocols for the trains. Rigorous analysis is provided to corroborate the closed-loop stability of the cooperative train control system and numerical simulation is conducted to verify the effectiveness and feasibility of the proposed results. This paper investigates the cooperative control problem of multiple high-speed trains subject to unknown parameters and actuator faults. The cooperative operation of multiple high-speed trains is modeled as a coupled control system. On the basis of the virtual coupling technique, the H ∞ active fault-tolerant cooperative control scheme is established to guarantee the desired tracking performances and cooperative performances. The adaptive control technique is adopted to estimate the unknown Davis' coefficients and the fault parameters and linear matrix inequalities are utilized to derive the control gain of the cooperative control protocols for the trains. Rigorous analysis is provided to corroborate the closed-loop stability of the cooperative train control system and numerical simulation is conducted to verify the effectiveness and feasibility of the proposed results.
Author	Bai, Weiqi Lin, Xue Yu, Shajia Wang, Qianling
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SubjectTerms	Active control Actuators Adaptive control Block signalling Circuit faults Closed loops Cooperative control Coupling Couplings Fault tolerance Fault tolerant systems fault-tolerant control H-infinity control High speed rail Linear matrix inequalities Mathematical models multiple high-speed trains Parameters Resistance Stability analysis virtual coupling
Title	Virtual coupling-based H∞ active fault-tolerant cooperative control for multiple high-speed trains with unknown parameters and actuator faults
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