TR2021-056

Cornering Stiffness Adaptive, Stochastic Nonlinear Model Predictive Control for Vehicles


    •  Vaskov, S., Quirynen, R., Berntorp, K., "Cornering Stiffness Adaptive, Stochastic Nonlinear Model Predictive Control for Vehicles", American Control Conference (ACC), DOI: 10.23919/​ACC50511.2021.9482699, May 2021, pp. 154-159.
      BibTeX TR2021-056 PDF
      • @inproceedings{Vaskov2021may,
      • author = {Vaskov, Sean and Quirynen, Rien and Berntorp, Karl},
      • title = {Cornering Stiffness Adaptive, Stochastic Nonlinear Model Predictive Control for Vehicles},
      • booktitle = {American Control Conference (ACC)},
      • year = 2021,
      • pages = {154--159},
      • month = may,
      • doi = {10.23919/ACC50511.2021.9482699},
      • url = {https://www.merl.com/publications/TR2021-056}
      • }
  • Research Areas:

    Control, Machine Learning, Optimization

Abstract:

The vehicle control behavior is highly dependenton the road surface. However, accurate and precise models for the tire–road interaction are typically unknown a priori. It is therefore important that the vehicle’s control algorithm updates its tire-force model, to adapt to the changing conditions. In this paper, we propose a stochastic nonlinear model-predictive control (SNMPC) scheme that uses a linear tire-force model, where the mean and covariance of the cornering stiffness parameters are estimated and updated online. We formulate constraints based on the stiffness estimates to ensure that the vehicle maintains stability on low-friction surfaces. In extensive simulations, where the road surface transitions from asphalt to snow, we compare the proposed controller with various MPC implementations; for example, the proposed approach reduces average closed-loop cost over 30% on aggressive maneuvers, when compared to a non-stochastic controller.

 

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      Date: October 10, 2022 - October 11, 2022
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      Brief
      • Rien Quirynen is an invited speaker at an international workshop on Embedded Optimization and Learning for Robotics and Mechatronics, which is organized by the ELO-X project at the University of Freiburg in Germany. This talk, entitled "Embedded learning, optimization and predictive control for autonomous vehicles", presents recent results from multiple projects at MERL that leverage embedded optimization, machine learning and optimal control for autonomous vehicles.

        This workshop is part of the ELO-X Fall School and Workshop. Invited external lecturers will present state-of-the-art techniques and applications in the field of Embedded Optimization and Learning. ELO-X is a Marie Curie Innovative Training Network (ITN) funded by the European Commission Horizon 2020 program.
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