Title :
Model Predictive Control for Vehicle Stabilization at the Limits of Handling
Author :
Beal, C.E. ; Gerdes, J. Christian
Author_Institution :
Dept. of Mech. Eng., Stanford Univ., Stanford, CA, USA
Abstract :
Recent developments in vehicle steering systems offer new opportunities to measure the steering torque and reliably estimate the vehicle sideslip and the tire-road friction coefficient. This paper presents an approach to vehicle stabilization that leverages these estimates to define state boundaries that exclude unstable vehicle dynamics and utilizes a model predictive envelope controller to bound the vehicle motion within this stable region of the state space. This approach provides a large operating region accessible by the driver and smooth interventions at the stability boundaries. Experimental results obtained with a steer-by-wire vehicle and a proof of envelope invariance demonstrate the efficacy of the envelope controller in controlling the vehicle at the limits of handling.
Keywords :
automotive components; friction; mechanical stability; motion control; predictive control; road vehicles; state-space methods; steering systems; torque control; tyres; vehicle dynamics; driver; envelope invariance; model predictive envelope controller; stability boundary; state boundary; state space; steer-by-wire vehicle; steering torque; tire-road friction coefficient; unstable vehicle dynamics; vehicle motion; vehicle sideslip; vehicle stabilization; vehicle steering system; Control systems; Equations; Force; Mathematical model; Predictive models; Tires; Vehicles; Driver assistance; envelope control; model predictive control (MPC); vehicle dynamics; vehicle safety;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2012.2200826
