Distributed Continuous-Time Control via System Level Synthesis
Systems and Control
2026-04-06 v4 Systems and Control
Abstract
This paper designs H2 and H-infinity distributed controllers with local communication and local disturbance rejection. We propose a two-step procedure: first, select closed-loop poles; then, optimize over parameterized controllers. We build on the system level synthesis (SLS) parameterization -- primarily used in the discrete-time setting -- and extend it to the general continuous-time setting. We verify our approach in simulation on a 9-node grid governed by linearized swing equations, where our distributed controllers achieve performance comparable to that of optimal centralized controllers while facilitating local disturbance rejection.
Cite
@article{arxiv.2410.08135,
title = {Distributed Continuous-Time Control via System Level Synthesis},
author = {Yaozhi Du and Jing Shuang Li},
journal= {arXiv preprint arXiv:2410.08135},
year = {2026}
}
Comments
6 pages, to appear at ACC (American Control Conference) 2026