Active rear-wheel steering is an effective technology to improve the cornering performance of vehicles, enhancing both handling and stability. In this study, a MPC-based rear-wheel steering controller for sport driving conditions is proposed. High performance is achieved by an accurate choice of the linear time-varying (LTV) predictive model. All the fundamental aspects of lateral dynamics, such as tire force saturation, tire relaxation, aerodynamic downforce and load transfer are taken into account. Simulation results on a multi-body vehicle simulator and the details of the real-time implementation complete the paper.
Design and Implementation of a MPC-based Rear-Wheel Steering Controller for Sports Cars
Lucchini A.;Corno M.;Formentin S.;Savaresi S. M.
2021-01-01
Abstract
Active rear-wheel steering is an effective technology to improve the cornering performance of vehicles, enhancing both handling and stability. In this study, a MPC-based rear-wheel steering controller for sport driving conditions is proposed. High performance is achieved by an accurate choice of the linear time-varying (LTV) predictive model. All the fundamental aspects of lateral dynamics, such as tire force saturation, tire relaxation, aerodynamic downforce and load transfer are taken into account. Simulation results on a multi-body vehicle simulator and the details of the real-time implementation complete the paper.File in questo prodotto:
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RWS_MPC_CCTA.pdf
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