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Feedback optimization with state constraints through control barrier functions
G. Delimpaltadakis, P. Mestres, J. Cortés, W. P. M. H. Heemels
Proceedings of the IEEE Conference on Decision and Control, Rio de Janeiro, Brazil, 2025, submitted

Abstract

Recently, there has been a surge of research on a class of methods called feedback optimization. These are methods to steer the state of a control system to an equilibrium that arises as the solution of an optimization problem. Despite the growing literature on the topic, the important problem of enforcing state constraints at all times remains unaddressed. In this work, we present the first feedback-optimization method that enforces state constraints. The method combines a class of dynamics called safe gradient flows with high-order control barrier functions. We provide a number of results on our proposed controller, including well-posedness guarantees, anytime constraint-satisfaction guarantees, equivalence between the closed-loop's equilibria and the optimization problem's critical points, and local asymptotic stability of optima.

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