多机器人机构协调的最小目标应变能

Yoshihiko Nakamura
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引用次数: 27

摘要

讨论了多机器人机构协调中的力分配问题。为了确定选择内力时更具有物理动机的准则,讨论了存储在物体中的弹性应变能与机器人机构施加的力和力矩之间的关系。在此基础上,证明了物体的弹性应变能是力和力矩的二次形式。我们建议在选择内力和力矩时尽量使物体应变能最小。当物体在所有接触点和每个接触点的所有方向上的所有弹簧常数都相等时,最小应变能准则与最小力准则相同。针对机械臂刚性抓取物体的情况和机械手指通过摩擦点接触抓取物体的情况,提出了最小应变能准则的算法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Minimizing Object Strain Energy for Coordination of Multiple Robotic Mechanisms
This paper discusses the force distribution problem in coordination of multiple robotic mechanisms. To define the more physically motivated criterion in choosing internal forces, the relationship between the elastic strain energy stored in the object and the forces and moments applied by robotic mechanisms is discussed. Based on the several assumptions, it is shown that the elastic strain energy of object is represented as a quadratic form of the forces and moments. We propose to minimize the object strain energy in choosing the internal forces and moments. The minimal strain energy criterion is identical to the minimal force criterion when all the spring constants of object are uniform at all the contact points and all the directions of each contact point. The algorithms for the minimal strain energy criterion are proposed for both of the case where each robotic manipulator grasps the object rigidly and the case where robotic fingers grasp the object with frictional point contacts.
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