Optimal multiplexing of sparse controllers for linear systems
Abstract
This article treats three problems of sparse and optimal multiplexing a finite ensemble of linear control systems. Given an ensemble of linear control systems, multiplexing of the controllers consists of an algorithm that selects, at each time , only one from the ensemble of linear systems is actively controlled whereas the other systems evolve in open-loop. The first problem treated here is a ballistic reachability problem where the control signals are required to be maximally sparse and multiplexed, the second concerns sparse and optimally multiplexed linear quadratic control, and the third is a sparse and optimally multiplexed Mayer problem. Numerical experiments are provided to demonstrate the efficacy of the techniques developed here.
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Cite
@article{arxiv.1811.01150,
title = {Optimal multiplexing of sparse controllers for linear systems},
author = {Yogesh Kumar and Sukumar Srikant and Debasish Chatterjee},
journal= {arXiv preprint arXiv:1811.01150},
year = {2019}
}
Comments
5 figures