人机协作的动态控制

Proceedings of 1993 2nd IEEE International Workshop on Robot and Human Communication Pub Date : 1993-11-03 DOI:10.1109/ROMAN.1993.367685

Kazuhiro Kosuge, H. Yoshida, Toshio Fukuda

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引用次数: 71

摘要

本文提出了一种新的机器人系统，该系统由多个机器人组成，并与人类合作执行任务。作者考虑了一个机器人和人类协调操作一个物体的任务。作者假设机器人与人之间不发生交互，即机器人与人之间仅通过对象进行交互。作者还假设人类正在围绕物体的一个固定点操纵物体。在这些假设下，作者为每个机器人设计了一个围绕点的控制器，使物体具有规定的围绕点的被动动力学。在人的无源性条件满足的前提下，利用波波夫超稳定性定理，保证了系统的稳定性。将所得到的控制算法应用于由两个工业机械手和一个人组成的实验系统。实验结果验证了所提出的控制算法。

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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Dynamic control for robot-human collaboration

This paper proposes a new robotic system, which consists of multiple robots and executes a task in cooperation with humans. The authors consider a task in which the robots and humans manipulate an object in coordination. The authors assume that no interactions occur among robots and humans, that is, robots and humans have interactions with each other only through the object. The authors also assume that the humans are manipulating the object around a point fixed to the object. Under these assumptions, the authors design a controller for each robot around the point so that the object has a prescribed passive dynamics around the point. The stability of the resultant system is assured based on Popov's hyper stability theorem under the assumption that the passivity conditions for the humans are satisfied. The resultant control algorithm is applied to an experimental system, which consists of two industrial manipulators and a human. The results illustrate the proposed control algorithm.<>

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Proceedings of 1993 2nd IEEE International Workshop on Robot and Human Communication

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