Autonomous chain network formation by multi-robot rescue system with ad hoc networking

2010 IEEE Safety Security and Rescue Robotics Pub Date : 2010-07-26 DOI:10.1109/SSRR.2010.5981574

Hisayoshi Sugiyama, T. Tsujioka, M. Murata

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引用次数: 17

Abstract

The autonomous chain network formation by multi-robot rescue system is investigated. Chain networks connecting a base station and rescue robots are essential to reconnoiter distant spaces in disaster areas. The chains must be formed to assure communications among them and must be transformed if the target of exploration changes. These formations must be executed by autonomous movements of robots from reliable viewpoints in rescue operations. As the basis of their movements, we adopt autonomous classification of robots into search robots and relay robots. They act according to the behavior algorithms of each class of robot to form chain network threading the path to the distant spaces. The rule of the classification and the behavior algorithm refer forwarding table of each robot constructed for ad hoc networking. The results of simulations show that chain networks are formed and transformed by rescue robots appropriately for their reconnaissance to distant spaces even though three spaces exist beyond different corridors stemming from the safety zone where base station is established.

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基于自组网的多机器人救援系统自主链网络的形成

研究了多机器人救援系统中自主链网络的形成。连接基站和救援机器人的链式网络对于探测灾区的遥远空间至关重要。必须形成链条以确保它们之间的通信，并且必须在勘探目标发生变化时进行转换。在救援行动中，这些队形必须由机器人从可靠的视点自主运动来执行。作为机器人运动的基础，我们将机器人自主分类为搜索机器人和接力机器人。它们按照每一类机器人的行为算法进行行动，形成链条网络，将路径贯穿到遥远的空间。分类规则和行为算法参考了为ad hoc网络构建的每个机器人的转发表。仿真结果表明，从建立基站的安全区出发，在不同走廊之外存在三个空间的情况下，救援机器人仍能形成链网，并将链网转化为适合其侦察到遥远空间的链网。

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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2010 IEEE Safety Security and Rescue Robotics

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