Mario Zanon scite author profile

Reinforcement Learning (RL) is a powerful tool to perform data-driven optimal control without relying on a model of the system. However, RL struggles to provide hard guarantees on the behavior of the resulting control scheme. In contrast, Nonlinear Model Predictive Control (NMPC) and Economic NMPC (ENMPC) are standard tools for the closedloop optimal control of complex systems with constraints and limitations, and benefit from a rich theory to assess their closedloop behavior. Unfortunately, the performance of (E)NMPC hinges on the quality of the model underlying the control scheme. In this paper, we show that an (E)NMPC scheme can be tuned to deliver the optimal policy of the real system even when using a wrong model. This result also holds for real systems having stochastic dynamics. This entails that ENMPC can be used as a new type of function approximator within RL. Furthermore, we investigate our results in the context of ENMPC and formally connect them to the concept of dissipativity, which is central for the ENMPC stability. Finally, we detail how these results can be used to deploy classic RL tools for tuning (E)NMPC schemes. We apply these tools on both a classical linear MPC setting and a standard nonlinear example from the ENMPC literature.

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An auto-generated nonlinear MPC algorithm for real-time obstacle avoidance of ground vehicles

Frasch

et al. 2013

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Safe Reinforcement Learning Using Robust MPC

Zanon

Gros

2021

IEEE Trans. Automat. Contr.

179

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Model Predictive Control of Nonholonomic Mobile Robots Without Stabilizing Constraints and Costs

Worthmann

Mehrez

Zanon

et al. 2016

IEEE Trans. Contr. Syst. Technol.

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Mario Zanon

From linear to nonlinear MPC: bridging the gap via the real-time iteration

Data-Driven Economic NMPC Using Reinforcement Learning

An auto-generated nonlinear MPC algorithm for real-time obstacle avoidance of ground vehicles

Safe Reinforcement Learning Using Robust MPC

Model Predictive Control of Nonholonomic Mobile Robots Without Stabilizing Constraints and Costs

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