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Adaptive yaw stability control by coordination of active steering and braking with an optimized lower‐level controller

Narjes Ahmadian, Alireza Khosravi, Pouria Sarhadi

2020International Journal of Adaptive Control and Signal Processing19 citationsDOI

Abstract

Summary In this article, an integrated multiinput multioutput model reference adaptive control algorithm is presented based on active front steering and effective direct yaw moment distribution as an advanced driver assistance system. Vehicle parameter uncertainties in mass and tire‐road friction coefficient are considered through adaptation laws at the upper level in the control structure. The efficient distribution of yaw moment on the rear wheels is performed via a constrained optimization at the lower control level. Control commands are executed by additive steering angle on front wheels and brake torque applied on one of the rear wheels. Simulation results for different lateral maneuvers are employed for the evaluation of the proposed adaptive control method. The performance of the integrated control algorithm to enhance vehicle handling and stability is shown on various road conditions.

Topics & Concepts

Control theory (sociology)Controller (irrigation)Automobile handlingYawTorqueEngineeringStability (learning theory)Electronic stability controlActive steeringVehicle dynamicsBrakeMoment (physics)Adaptive controlControl (management)Automotive engineeringControl engineeringComputer scienceBiologyMachine learningAgronomyClassical mechanicsArtificial intelligencePhysicsThermodynamicsVehicle Dynamics and Control SystemsSoil Mechanics and Vehicle DynamicsElectric and Hybrid Vehicle Technologies
Adaptive yaw stability control by coordination of active steering and braking with an optimized lower‐level controller | Litcius