A scalable controller synthesis method for the robust control of networked systems
Abstract
This manuscript discusses a scalable controller synthesis method for networked systems with a large number of identical subsystems based on the H-infinity control framework. The dynamics of the individual subsystems are described by identical linear time-invariant delay differential equations and the effect of transport and communication delay is explicitly taken into account. The presented method is based on the result that, under a particular assumption on the graph describing the interconnections between the subsystems, the H-infinity norm of the overall system is upper bounded by the robust H-infinity norm of a single subsystem with an additional uncertainty. This work will therefore briefly discuss a recently developed method to compute this last quantity. The resulting controller is then obtained by directly minimizing this upper bound in the controller parameters.
Keywords
Cite
@article{arxiv.2009.04289,
title = {A scalable controller synthesis method for the robust control of networked systems},
author = {Pieter Appeltans and Wim Michiels},
journal= {arXiv preprint arXiv:2009.04289},
year = {2020}
}