Predictive stability filters for nonlinear dynamical systems affected by disturbances
Abstract
Predictive safety filters provide a way of projecting potentially unsafe inputs, proposed, e.g. by a human or learning-based controller, onto the set of inputs that guarantee recursive state and input constraint satisfaction by leveraging model predictive control techniques. In this paper, we extend this framework such that in addition, robust asymptotic stability of the closed-loop system can be guaranteed by enforcing a decrease of an implicit Lyapunov function which is constructed using a predicted system trajectory. Differently from previous results, we show robust asymptotic stability with respect to a predefined disturbance set on an extended state consisting of the system state and a warmstart input sequence. The proposed strategy is applied to an automotive lane keeping example in simulation.
Cite
@article{arxiv.2401.11183,
title = {Predictive stability filters for nonlinear dynamical systems affected by disturbances},
author = {Alexandre Didier and Andrea Zanelli and Kim P. Wabersich and Melanie N. Zeilinger},
journal= {arXiv preprint arXiv:2401.11183},
year = {2024}
}
Comments
Accepted at NMPC'24