Event-Triggered Control for Mitigating SIS Spreading Processes
Abstract
In this paper, we investigate the problem of designing event-triggered controllers for containing epidemic processes in complex networks. We focus on a deterministic susceptible-infected-susceptible (SIS) model, which is one of the well-known, fundamental models that capture the epidemic spreading. The event-triggered control is particularly formulated in the context of viral spreading, in which control inputs (e.g., the amount of medical treatments, a level of traffic regulations) for each subpopulation are updated only when the fraction of the infected people in the subpopulation exceeds a prescribed threshold. We analyze stability of the proposed event-triggered controller, and derives a sufficient condition for a prescribed control objective to be achieved. Moreover, we propose a novel emulation-based approach towards the design of the event-triggered controller, and show that the problem of designing the event-triggered controller can be solved in polynomial time using geometric programming. We illustrate the effectiveness of the proposed approach through numerical simulations using an air transportation network.
Keywords
Cite
@article{arxiv.2012.15146,
title = {Event-Triggered Control for Mitigating SIS Spreading Processes},
author = {Kazumune Hashimoto and Yuga Onoue and Masaki Ogura and Toshimitsu Ushio},
journal= {arXiv preprint arXiv:2012.15146},
year = {2021}
}
Comments
Accepted to Annual Reviews in Control.The first and second authors are contributed equally to this work