Coalitional predictive control: consensus-based coalition forming with robust regulation
Abstract
This paper is concerned with the problem of controlling a system of constrained dynamic subsystems in a way that balances the performance degradation of decentralized control with the practical cost of centralized control. We propose a coalitional control scheme in which controllers of subsystems may, as the need arises, group together into coalitions and operate as a single entity. The scheme employs a robust form of distributed model predictive control for which recursive feasibility and stability are guaranteed, yet---uniquely---the reliance on robust invariant sets is merely implicit, thus enabling applicability to higher-order systems. The robust control algorithm is combined with an algorithm for coalition forming based on consensus theory and potential games; we establish conditions under which controllers reach a consensus on the sets of coalitions. The recursive feasibility and closed-loop stability of the overall time-varying coalitional control scheme are established under a sufficient dwell time, the existence of which is guaranteed.
Cite
@article{arxiv.2001.10240,
title = {Coalitional predictive control: consensus-based coalition forming with robust regulation},
author = {Pablo R Baldivieso-Monasterios and Paul A Trodden},
journal= {arXiv preprint arXiv:2001.10240},
year = {2020}
}
Comments
15 pages, 7 figures