Contingency-Tolerant Robot Motion Planning and Control

Proceedings. IEEE/RSJ International Workshop on Intelligent Robots and Systems '. (IROS '89) 'The Autonomous Mobile Robots and Its Applications Pub Date : 1989-09-04 DOI:10.1109/IROS.1989.637890

Wonyun Choi, David Zhu, J. Latombe

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引用次数: 20

Abstract

We address the problem of robot motion planning and control in a partially known environment. Examples of this type of environment include shop-floors, office buildings, con- stri~ctiori sites, and clean rooms. In such environments, the sh;?pcs antl the locations of the largest objects are known in ad- vance. But there are other objects whose locations are changing so often that the robot cannot realistically keep track of them. In order for a robot to operate successfully in this type of en- vironment, it must be tolerant to contingencies - i.e., it must be ablc to efliciently deal with unexpected obstacles while ex- ecu ting planned motions. A contingency-tolerant motion plan- ning and control system is presented in this paper. It combines a "lesser-commitment" planner with an "intelligent" controller. Tlic planner produces a set of paths, called a "channel", rather than a single path, in order to let the controller have more free- dom of clioicc. The controller exploits this freedom by applying a potential field method. We have implemented this system and expcrimcnted with it, using both a computer simulated mobile robot and a real one. Acknowledgements: This research was funded by DARPA con- tract DAAA21-89-CO002 (Army), CIS (Center for Integrated Sys- tcms), CIFE (Center for Integrated Facility Engineering), and Digital Gquipnic~it Corporation.

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容错机器人运动规划与控制

我们解决了机器人在部分已知环境中的运动规划和控制问题。这类环境的例子包括车间、办公楼、生产场所和洁净室。在这样的环境中，sh;?PCS和所有最大物体的位置都是事先知道的。但还有一些物体的位置变化太频繁，机器人实际上无法追踪到它们。为了让机器人在这种类型的环境中成功地运行，它必须能够容忍突发事件——也就是说，它必须能够在执行计划运动的同时有效地处理意想不到的障碍。提出了一种容错运动规划与控制系统。它结合了“较少承诺”的计划器和“智能”控制器。lic规划器产生一组路径，称为“通道”，而不是单一路径，以使控制器有更多的操作自由。控制器通过应用势场法来利用这种自由度。我们已经实现了这个系统，并对它进行了实验，使用计算机模拟的移动机器人和真实的移动机器人。致谢:本研究由DARPA合同DAAA21-89-CO002(陆军)、CIS(集成系统中心)、CIFE(集成设施工程中心)和Digital Gquipnic~it Corporation资助。

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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Proceedings. IEEE/RSJ International Workshop on Intelligent Robots and Systems '. (IROS '89) 'The Autonomous Mobile Robots and Its Applications

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