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Chassis Coordinated Control for Full X-by-Wire Vehicles-A Review

Lei Zhang, Zhiqiang Zhang, Zhenpo Wang, Junjun Deng, David G. Dorrell

2021Chinese Journal of Mechanical Engineering111 citationsDOIOpen Access PDF

Abstract

Abstract An X-by-wire chassis can improve the kinematic characteristics of human-vehicle closed-loop system and thus active safety especially under emergency scenarios via enabling chassis coordinated control. This paper aims to provide a complete and systematic survey on chassis coordinated control methods for full X-by-wire vehicles, with the primary goal of summarizing recent reserch advancements and stimulating innovative thoughts. Driving condition identification including driver's operation intention, critical vehicle states and road adhesion condition and integrated control of X-by-wire chassis subsystems constitute the main framework of a chassis coordinated control scheme. Under steering and braking maneuvers, different driving condition identification methods are described in this paper. These are the trigger conditions and the basis for the implementation of chassis coordinated control. For the vehicles equipped with steering-by-wire, braking-by-wire and/or wire-controlled-suspension systems, state-of-the-art chassis coordinated control methods are reviewed including the coordination of any two or three chassis subsystems. Finally, the development trends are discussed.

Topics & Concepts

ChassisAutomotive engineeringControl (management)Identification (biology)EngineeringSuspension (topology)Computer scienceControl engineeringMechanical engineeringArtificial intelligenceBiologyBotanyPure mathematicsHomotopyMathematicsVehicle Dynamics and Control SystemsReal-time simulation and control systemsHydraulic and Pneumatic Systems
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