崎岖地形下移动机器人的路径规划

Proceedings of the Third International Workshop on Robot Motion and Control, 2002. RoMoCo '02. Pub Date : 2002-11-09 DOI:10.1109/ROMOCO.2002.1177142

D. Spero, R. Jarvis

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引用次数: 34

摘要

在崎岖地形环境中对移动机器人的鲁棒控制是一项具有挑战性的工作，因为任何对有利表面或环境条件的依赖都将不可避免地导致任务失败。本文介绍了一种用于控制非完整移动机器人在先验未知室外区域的统一导航系统的初步开发。通过扫描激光测距仪(雷达)收集精确、高分辨率的环境数据，这构成了机器人的外部感知系统。利用这些数据，创建了一个3D镶嵌环境模型，该模型通常可以捕获地形的可穿越性。将快速探索的随机树方法应用于细分模型，设计了一种高效的运动路径规划算法，实现了点对点的轨迹遍历。该路径规划策略是一种计算效率高的生成鲁棒和通用路径规划的方法。

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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Path planning for a mobile robot in a rough terrain environment

The robust control of a mobile robot in a rough terrain environment is a challenging endeavour, since any reliance on favourable surface or environmental conditions will inevitably lead to task failure. This paper presents the preliminary development of a unified navigation system used to control a nonholonomic mobile robot in an a priori unknown outdoor domain. Accurate, high-resolution environmental data was gathered from a scanning laser rangefinder (ladar), which constitutes the robot's exteroceptive perception system. Using this data, a 3D tessellated environmental model was created that generically captures terrain traversability. By adapting the rapidly-exploring random tree approach to the tessellated model, an efficient kinodynamic path planning algorithm was devised that enables point-to-point trajectory traversal. This path planning strategy was found to be a computationally efficient method of producing robust and versatile path plans.

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Proceedings of the Third International Workshop on Robot Motion and Control, 2002. RoMoCo '02.

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