English

Safe Control with Minimal Regret

Systems and Control 2022-11-15 v2 Systems and Control

Abstract

As we move towards safety-critical cyber-physical systems that operate in non-stationary and uncertain environments, it becomes crucial to close the gap between classical optimal control algorithms and adaptive learning-based methods. In this paper, we present an efficient optimization-based approach for computing a finite-horizon robustly safe control policy that minimizes dynamic regret, in the sense of the loss relative to the optimal sequence of control actions selected in hindsight by a clairvoyant controller. By leveraging the system level synthesis framework (SLS), our method extends recent results on regret minimization for the linear quadratic regulator to optimal control subject to hard safety constraints, and allows competing against a safety-aware clairvoyant policy with minor modifications. Numerical experiments confirm superior performance with respect to finite-horizon constrained H2\mathcal{H}_2 and H\mathcal{H}_\infty control laws when the disturbance realizations poorly fit classical assumptions.

Keywords

Cite

@article{arxiv.2203.00358,
  title  = {Safe Control with Minimal Regret},
  author = {Andrea Martin and Luca Furieri and Florian Dörfler and John Lygeros and Giancarlo Ferrari-Trecate},
  journal= {arXiv preprint arXiv:2203.00358},
  year   = {2022}
}
R2 v1 2026-06-24T09:57:41.793Z