Optimal Dynamic Regret in LQR Control
Abstract
We consider the problem of nonstochastic control with a sequence of quadratic losses, i.e., LQR control. We provide an efficient online algorithm that achieves an optimal dynamic (policy) regret of , where is the total variation of any oracle sequence of Disturbance Action policies parameterized by -- chosen in hindsight to cater to unknown nonstationarity. The rate improves the best known rate of for general convex losses and we prove that it is information-theoretically optimal for LQR. Main technical components include the reduction of LQR to online linear regression with delayed feedback due to Foster and Simchowitz (2020), as well as a new proper learning algorithm with an optimal dynamic regret on a family of ``minibatched'' quadratic losses, which could be of independent interest.
Keywords
Cite
@article{arxiv.2206.09257,
title = {Optimal Dynamic Regret in LQR Control},
author = {Dheeraj Baby and Yu-Xiang Wang},
journal= {arXiv preprint arXiv:2206.09257},
year = {2022}
}