In this paper, we present an experimental evaluation of the Cartesian stiffness of a novel parallel wrist under redundant and antagonistic actuation. The mechanism in consideration is Omni-Wrist V (OW5), a two degrees-of-freedom (DoF) parallel mechanism redundantly actuated by three subchains. We first give a brief review of its kineto-statics and derive its reduced Cartesian stiffness model. To illustrate the stiffness enhancement of OW5 under redundant and antagonistic actuation, its Cartesian stiffness is measured and evaluated under four control schemes: the non-redundant control, the minimum 2-norm torque control without or with redundant encoder, and the antagonistic actuation control. Measurement data are represented using stiffness matrices and stiffness ellipses. Our study offers a quick quantitative evaluation of stiffness enhancement of OW5 under redundant and antagonistic actuation.

Joints, Force, Aerospace electronics, Wrist, Torque control, Torque, Kinematics

C. Li, Y. Wu, J. Wu, W. Shi, D. Dai, J. Shi, Z. Li, "Cartesian stiffness evaluation of a novel 2 DoF parallel wrist under redundant and antagonistic actuation," in Proceedings of the 2013 IEEE/RSJ International Conference on Intelligent Robots and Systems, Tokyo, Japan, Nov 03–07, 2013, pp. 959–964.

@INPROCEEDINGS{6696466,
author={Li, Cheng and Wu, Yuanqing and Wu, Jiachun and Shi, Weiyi and Dai, Dan and Shi, Jinbo and Li, Zexiang},
booktitle={2013 IEEE/RSJ International Conference on Intelligent Robots and Systems},
title={Cartesian stiffness evaluation of a novel 2 DoF parallel wrist under redundant and antagonistic actuation},
year={2013},
volume={},
number={},
pages={959-964},
keywords={Joints;Force;Aerospace electronics;Wrist;Torque control;Torque;Kinematics},
doi={10.1109/IROS.2013.6696466}
}