Decentralized control of robots for dynamic coordination

Proceedings 1995 IEEE/RSJ International Conference on Intelligent Robots and Systems. Human Robot Interaction and Cooperative Robots Pub Date : 1995-08-05 DOI:10.1109/IROS.1995.525778

K. Kosuge, D. Taguchi, T. Fukuda, M. Sakai, Kiyoshi Kanitani

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引用次数: 10

Abstract

We propose a coordinated motion control algorithm of manipulators, by which each manipulator is controlled by its own controller in a decentralized way. We select a manipulator as a leader and a task is described by the motion of the leader and the motions of the other manipulators relative to the motion of the leader. The latter manipulators are referred to the followers. First we consider the problem of manipulation of a single object by multiple manipulators. In this task, the motion of the object is given to the leader. To execute the task in a decentralized way, we propose an algorithm for each follower to estimate the notion of the leader based on the information from its own force sensor. Using the algorithm, the manipulation of a single object is executed in a decentralized way. We consider the parts-mating problem, next, by two manipulators in coordination. An assembly task is described by the motion of a part manipulated by the leader and the relative motion between two parts given to the follower. The relative motion is observed and controlled by a vision sensor attached to the follower and the assembly task is executed independently of the motion of the leader. Experimental results using two industrial robots will illustrate the validity of the proposed control system.

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机器人动态协调的分散控制

提出了一种机械手协调运动控制算法，每个机械手由自己的控制器进行分散控制。我们选择一个机械手作为领导者，任务由领导者的运动和其他机械手相对于领导者的运动来描述。后一个操纵者被称为追随者。首先，我们考虑由多个操作器操作单个对象的问题。在这个任务中，物体的运动被交给leader。为了以分散的方式执行任务，我们提出了一种算法，让每个follower根据自己的力传感器信息来估计leader的概念。使用该算法，以分散的方式执行对单个对象的操作。接下来，我们考虑两个机械臂协调配合的零件匹配问题。装配任务由领导者操纵的零件的运动和两个零件之间的相对运动来描述。相对运动由附着在跟随体上的视觉传感器观察和控制，装配任务独立于领导体的运动而执行。在两个工业机器人上的实验结果将证明所提出的控制系统的有效性。

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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来源期刊

Proceedings 1995 IEEE/RSJ International Conference on Intelligent Robots and Systems. Human Robot Interaction and Cooperative Robots

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