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Main Author: Zhai, Chao
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2602.06472
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author Zhai, Chao
author_facet Zhai, Chao
contents It has long been a prominent challenge in multi-agent systems to achieve distributed coverage of non-convex annulus environments while ensuring workload equalization among agents. To address this challenge, a distributed circumferential coverage control formulation is developed in this note by constructing a Riemannian metric for the navigation in the non-convex subregion while avoiding collisions with the region boundary. In addition, a distributed partition law is designed to balance the workload on the entire coverage region by endowing each agent with a virtual partition bar that slides along the inner boundary of coverage region. Theoretical analysis is conducted to ensure the exponential convergence of workload partition and asymptotic convergence of each agent towards the local optimum in its subregion. Finally, a case study is presented to demonstrate the effectiveness of the proposed coverage control approach.
format Preprint
id arxiv_https___arxiv_org_abs_2602_06472
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Distributed Circumferential Coverage Control in Non-Convex Annulus Environments
Zhai, Chao
Optimization and Control
It has long been a prominent challenge in multi-agent systems to achieve distributed coverage of non-convex annulus environments while ensuring workload equalization among agents. To address this challenge, a distributed circumferential coverage control formulation is developed in this note by constructing a Riemannian metric for the navigation in the non-convex subregion while avoiding collisions with the region boundary. In addition, a distributed partition law is designed to balance the workload on the entire coverage region by endowing each agent with a virtual partition bar that slides along the inner boundary of coverage region. Theoretical analysis is conducted to ensure the exponential convergence of workload partition and asymptotic convergence of each agent towards the local optimum in its subregion. Finally, a case study is presented to demonstrate the effectiveness of the proposed coverage control approach.
title Distributed Circumferential Coverage Control in Non-Convex Annulus Environments
topic Optimization and Control
url https://arxiv.org/abs/2602.06472