人形肩部复合体及肱骨指向运动学

J. Lenarcic, M. Stanisic
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引用次数: 87

摘要

提出了一种仿人机器人肩部复合体及其肱骨指向运动学。人形肩关节复合体由两个子系统组成,即作为最内层肩带的并联机构和作为最外层球形肩关节的串联机构。这两个子系统由偏移距离和扭转角分开。子系统作为一个偏移双指向系统协同工作。人形肱骨指向是指肩胛骨与肱骨的位移共面,且各子系统的倾斜角之比达到与人形肱骨指向一致的常数值。人形肩胛带保留一个冗余自由度,可用于优化系统结构和操作准则,如避免人形肩关节的奇异锥。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A humanoid shoulder complex and the humeral pointing kinematics
This paper presents a humanoid robotic shoulder complex and the kinematics of humanoid humeral pointing as performed by this complex. The humanoid shoulder complex is composed of two subsystems, a parallel mechanism which serves as the innermost shoulder girdle and a serial mechanism which serves as the outermost spherical glenohumeral joint. These two subsystems are separated by an offset distance and a twist angle. The subsystems operate cooperatively as an offset double pointing system. Humanoid humeral pointing is defined as a configuration in which the displacement of the shoulder girdle and the humerus are coplanar, and in which a ratio between an inclination angle in each subsystem achieves a constant value consistent with human humeral pointing. One redundant degree of freedom remains in the humanoid shoulder girdle, and it can be used to optimize system configuration and operating criteria, such as avoiding the singular cones of the humanoid glenohumeral joint.
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