分布式协作机器人车辆导航任务规划

Proceedings of the IEEE SoutheastCon 2000. 'Preparing for The New Millennium' (Cat. No.00CH37105) Pub Date : 2000-04-07 DOI:10.1109/SECON.2000.845570

Mohammad Mansour, Amir Shirkhodaie

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引用次数: 6

摘要

实时避障是智能移动机器人的智能任务之一。移动机器人应具有在不确定性存在下自主行动的能力，并根据感知到的信息调整其行动。它们还应该能够接受高层次的面向任务的命令，集成多种数据，包括任务规范，能够处理有关自身状态和环境状态的信息，并且能够在不确定的情况下进行推理，而无需人为干预。所提出的技术是一种基于行为的方法，混合了子集导航行为，如反射、势场和墙跟随技术。我们分别讨论了每种方法，并提出了一种基于局部和全局感官信息可用性的自适应导航行为切换技术。我们的导航控制策略是在FMCell环境中完全开发的。本文给出了FMCell软件的一些仿真结果。

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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Navigational task-planning of distributed cooperative robotic vehicles

Real time obstacle avoidance is one of the intelligent tasks for intelligent mobile robots. Mobile robots should possess the ability to act autonomously in the presence of uncertainty and to adjust their action based on sensed information. They also should be capable of accepting high level mission oriented commands, integrate several kinds of data, including task specification, able to handle information about their own state and the state of the environment too, and be capable of reasoning under uncertainty without human intervention. The proposed technique is a behavior-based approach that blends subset navigational behaviors such as reflexive, potential field and wall following techniques. We discuss each approach separately and present a technique for adaptive navigational behavior switching that is conditional based on the availability of sensory information locally and globally. Our navigation control strategies are developed fully in the FMCell environment. We present some simulation results from FMCell software.

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来源期刊

Proceedings of the IEEE SoutheastCon 2000. 'Preparing for The New Millennium' (Cat. No.00CH37105)

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