Adaptive robot formations using fast marching square working under uncertainty conditions

Advanced Robotics and its Social Impacts Pub Date : 2011-10-01 DOI:10.1109/ARSO.2011.6301961

Javier V. Gómez, S. Garrido, L. Moreno

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引用次数: 5

Abstract

Robot formations are getting important since they can develop tasks that only one robot could not do or could take too much time. Also, they can perform some tasks better than humans. This paper provides a new algorithm to control robot formations working under uncertainty conditions such as errors in robot positions, errors when sensing obstacles or walls, etc. The proposed approach provides a robust solution based on leader-followers architecture (real or virtual leaders) with a prescribed geometry of the formation and it adapts dynamically to the environment. The algorithm applies the Fast Marching Square (FM2) method to the path planning of mobile robot formations, which have been proved to work fast and efficiently. The FM2 method is a potential based path planning method with no local minima which provides smooth and safe trajectories. The algorithm described here allows to easily set different behaviours to the formation during its motion depending on the objectives, being possible to set its flexibility. The results presented here show that using this method allows to the formation reacting to either static and dynamic obstacles with an easily changeable behaviour.

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不确定条件下快速行军方块自适应机器人编队

机器人编队变得越来越重要，因为它们可以完成只有一个机器人无法完成或需要花费太多时间的任务。此外，它们可以比人类更好地完成某些任务。本文提出了一种新的算法来控制机器人编队在不确定性条件下的工作，如机器人位置误差、感知障碍物或墙壁误差等。该方法提供了一种基于领导者-追随者结构(真实领导者或虚拟领导者)的鲁棒解决方案，具有规定的编队几何形状，并能动态适应环境。该算法将快速行进广场(FM2)方法应用于移动机器人编队的路径规划，实践证明该方法快速有效。FM2方法是一种基于势的路径规划方法，不存在局部极小值，能够提供光滑安全的轨迹。这里描述的算法允许在其运动过程中根据目标轻松设置不同的行为，从而可以设置其灵活性。本文给出的结果表明，使用这种方法可以使地层对静态和动态障碍物做出反应，并具有易于改变的行为。

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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Advanced Robotics and its Social Impacts

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