基于弱点力最小化的多机器人协作力分配优化方法

Proceedings IROS '91:IEEE/RSJ International Workshop on Intelligent Robots and Systems '91 Pub Date : 1991-11-03 DOI:10.1109/IROS.1991.174574

Y. Shin, M. Chung

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引用次数: 1

摘要

作者提出了一种最优力分配方法，称为弱点力最小化，它使线性、单范数或无限范数目标函数最小化。弱点是一个广义的弱点，它可以是多个机器人以及关节和/或末端执行器中的任何一点。为了解决薄弱点力最小化问题，将薄弱点力转换为末端执行器的接触力，以减少计算量。然后，利用线性规划方法得到了接触力。该方法适用于多机器人协作中的长物体、弱连接装配件、长连杆和弱关节等多个领域。该方法同样适用于多足车辆和多指手。

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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Optimal force distribution by weak point force minimization in cooperating multiple robots

The authors propose an optimal force distribution method, called weak point force minimization, which minimizes linear, one-norm, or infinite-norm objective functions. A weak point is a generalized one which can be any point in multiple robots as well as a joint and/or an end-effector. To solve the weak point force minimization, the weak point forces are converted to the contact forces of end-effectors so as to reduce the computational burden. Then, the contact forces are obtained by using linear programming. The proposed method is applicable to diverse areas such as a long object, weakly connected assembly parts long links and weak joints in cooperating multiple robots. The method is also applicable to the multilegged vehicle and the multifingered hand.<>

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Proceedings IROS '91:IEEE/RSJ International Workshop on Intelligent Robots and Systems '91

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