Landing Motion of a Legged Robot with Impact Force Reduction and Joint Torque Minimization

2013 Second International Conference on Robot, Vision and Signal Processing Pub Date : 2013-12-10 DOI:10.1109/RVSP.2013.65
Xianglong Wan, T. Urakubo, Y. Tada
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引用次数: 5

Abstract

This paper deals with an optimal landing motion of a 4-link legged robot that minimizes the impact force at the contact point and the joint torques necessary during the motion. The cost function for optimization is given as the weighted sum of the one for impact force and the one for joint torques. While the configuration where the leg is bent is advantageous in reducing the impact force, the configuration that is close to a singular configuration is advantageous in minimizing the joint torques. It is shown by numerical optimization results with different weights for the cost function.
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减冲击力和关节力矩最小化的腿式机器人着陆运动
本文研究了一种四足机器人的最佳着陆运动,该运动使接触点处的冲击力和运动过程中所需的关节力矩最小。优化的代价函数是冲击力和关节力矩的加权和。虽然腿弯曲的结构有利于减少冲击力,但接近单一结构的结构有利于最小化关节扭矩。对不同权重的代价函数进行数值优化的结果表明了这一点。
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2013 Second International Conference on Robot, Vision and Signal Processing
2013 Second International Conference on Robot, Vision and Signal Processing
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