Distributed multi-robot sweep coverage for a region with unknown workload distribution

Muqing Cao, Kun Cao, Xiuxian Li, Shenghai Yuan, Yang Lyu, Thien-Minh Nguyen, Lihua Xie
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Abstract

This paper considers the scenario where multiple robots collaboratively cover a region in which the exact distribution of workload is unknown prior to the operation. The workload distribution is not uniform in the region, meaning that the time required to cover a unit area varies at different locations of the region. In our approach, we divide the target region into multiple horizontal stripes, and the robots sweep the current stripe while partitioning the next stripe concurrently. We propose a distributed workload partition algorithm and prove that the operation time on each stripe converges to the minimum under the discrete-time update law. We conduct comprehensive simulation studies and compare our method with the existing methods to verify the theoretical results and the advantage of the proposed method. Flight experiments on mini drones are also conducted to demonstrate the practicality of the proposed algorithm.

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未知工作负载分布区域的分布式多机器人扫描覆盖
本文考虑了多个机器人协作覆盖一个区域的情况,在该区域内,作业前工作量的确切分布是未知的。该区域内的工作量分布并不均匀,这意味着覆盖单位面积所需的时间在该区域的不同位置会有所不同。在我们的方法中,我们将目标区域划分为多个水平条纹,机器人在清扫当前条纹的同时,也会同时划分下一个条纹。我们提出了一种分布式工作量分区算法,并证明在离散时间更新规律下,每个条纹上的操作时间都会收敛到最小值。我们进行了全面的仿真研究,并将我们的方法与现有方法进行了比较,以验证理论结果和所提方法的优势。我们还在微型无人机上进行了飞行实验,以证明所提算法的实用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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