Multi-robot exploration and rendezvous on graphs

2012 IEEE/RSJ International Conference on Intelligent Robots and Systems Pub Date : 2012-12-24 DOI:10.1109/IROS.2012.6386049

Malika Meghjani, G. Dudek

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引用次数: 21

Abstract

We address the problem of arranging a meeting (or rendezvous) between two or more robots in an unknown bounded topological environment, starting at unknown locations, without any communication. The goal is to rendezvous in minimum time such that the robots can share resources for performing any global task. We specifically consider a global exploration task executed by two or more robots. Each robot explores the environment simultaneously, for a specified time, then selects potential rendezvous locations, where it expects to find other robots, and visits them. We propose a ranking criterion for selecting the order in which potential rendezvous locations will be visited. This ranking criterion associates a cost for visiting a rendezvous location and gives an expected reward of finding other agents. We evaluate the time taken to rendezvous by varying a set of conditions including: world size, number of robots, starting location of each robot and the presence of sensor noise. We present simulation results to quantify the effect of the aforementioned factors on the rendezvous time.

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图上的多机器人探索与交会

我们解决了在未知的有界拓扑环境中安排两个或多个机器人之间的会议(或会合)的问题，从未知的位置开始，没有任何通信。目标是在最短的时间内集合，这样机器人就可以共享资源来执行任何全局任务。我们特别考虑由两个或更多机器人执行的全球勘探任务。每个机器人在指定的时间内同时探索环境，然后选择可能的会合地点，在那里它希望找到其他机器人，并访问它们。我们提出了一个排序标准来选择潜在的交会地点将被访问的顺序。这个排名标准将访问集合地点的成本与找到其他代理的预期奖励联系起来。我们通过改变一组条件来评估集合时间，这些条件包括:世界大小、机器人数量、每个机器人的起始位置和传感器噪声的存在。我们给出了仿真结果来量化上述因素对交会时间的影响。

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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来源期刊

2012 IEEE/RSJ International Conference on Intelligent Robots and Systems

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