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Vehicle Stability Control with Four-Wheel Independent Braking, Drive and Steering on In-Wheel Motor-Driven Electric Vehicles

Jaewon Nah, Seongjin Yim

2020Electronics46 citationsDOIOpen Access PDF

Abstract

This paper presents a method to design a vehicle stability controller with four-wheel independent braking (4WIB), drive (4WID) and steering (4WIS) for electric vehicles (EVs) adopting in-wheel motor (IWM) system. To improve lateral stability and maneuverability of vehicles, a direct yaw moment control strategy is adopted. A control allocation method is adopted to distribute control yaw moment into tire forces, generated by 4WIB, 4WID and 4WIS. A set of variable weights in the control allocation method is introduced for the application of several actuator combinations. Simulation on a driving simulation tool, CarSim®, shows that the proposed vehicle stability controller is capable of enhancing lateral stability and maneuverability. From the simulation, the effects of actuator combinations on control performance are analyzed.

Topics & Concepts

CarSimControl theory (sociology)ActuatorController (irrigation)Automotive engineeringElectronic stability controlEngineeringAutomobile handlingStability (learning theory)Active steeringVehicle dynamicsElectric vehicleMoment (physics)Control (management)Control engineeringComputer sciencePower (physics)PhysicsElectrical engineeringClassical mechanicsMachine learningQuantum mechanicsBiologyAgronomyArtificial intelligenceVehicle Dynamics and Control SystemsElectric and Hybrid Vehicle TechnologiesReal-time simulation and control systems
Vehicle Stability Control with Four-Wheel Independent Braking, Drive and Steering on In-Wheel Motor-Driven Electric Vehicles | Litcius