English

Policy Optimization for PDE Control with a Warm Start

Systems and Control 2024-03-05 v1 Artificial Intelligence Systems and Control Optimization and Control

Abstract

Dimensionality reduction is crucial for controlling nonlinear partial differential equations (PDE) through a "reduce-then-design" strategy, which identifies a reduced-order model and then implements model-based control solutions. However, inaccuracies in the reduced-order modeling can substantially degrade controller performance, especially in PDEs with chaotic behavior. To address this issue, we augment the reduce-then-design procedure with a policy optimization (PO) step. The PO step fine-tunes the model-based controller to compensate for the modeling error from dimensionality reduction. This augmentation shifts the overall strategy into reduce-then-design-then-adapt, where the model-based controller serves as a warm start for PO. Specifically, we study the state-feedback tracking control of PDEs that aims to align the PDE state with a specific constant target subject to a linear-quadratic cost. Through extensive experiments, we show that a few iterations of PO can significantly improve the model-based controller performance. Our approach offers a cost-effective alternative to PDE control using end-to-end reinforcement learning.

Keywords

Cite

@article{arxiv.2403.01005,
  title  = {Policy Optimization for PDE Control with a Warm Start},
  author = {Xiangyuan Zhang and Saviz Mowlavi and Mouhacine Benosman and Tamer Başar},
  journal= {arXiv preprint arXiv:2403.01005},
  year   = {2024}
}
R2 v1 2026-06-28T15:06:47.159Z