A vertical jump optimization strategy for one-legged robot with variable reduction ratio joint

2020 IEEE-RAS 20th International Conference on Humanoid Robots (Humanoids) Pub Date : 2021-07-19 DOI:10.1109/HUMANOIDS47582.2021.9555679

Haoxiang Qi, Xuechao Chen, Zhangguo Yu, Gao Huang, Libo Meng, K. Hashimoto, Wen-Xiong Liao, Qiang Huang

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引用次数: 2

Abstract

This paper proposes a vertical jump optimization strategy for a one-legged robot with consideration of its variable reduction ratio joints. Firstly, the characteristic of the joint is derived to obtain its influence on jump motion, which is similar to the reduction ratio. Secondly, referring to the joint’s characteristic, the initial posture of jumping is optimized to maximize the initial acceleration of jumping. Then, to generate the trajectory of the center of mass (CoM) and make the jump motion more efficient, nonlinear optimization of CoM is adopted with respect to human jumping data. Full-body dynamics is considered to track the trajectory with virtual force control. For flight phase, joint PD controller is adopted to decelerate and maintain the posture. A contrast simulation is implemented to demonstrate the characteristics of the variable reduction ratio joint. Vertical jump experiment on a one-legged robot platform is realized with a height of 30 cm.

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可变减速比单足机器人垂直跳跃优化策略

提出了一种考虑变减速比关节的单足机器人垂直跳跃优化策略。首先，推导了关节的特性，得到了其对跳跃运动的影响，这与减速比相似。其次，根据关节的特点，优化跳跃的初始姿态，使跳跃的初始加速度最大化。然后，针对人体跳跃数据，对质心进行非线性优化，生成质心轨迹，提高跳跃运动的效率。采用全体动力学方法，利用虚拟力控制进行轨迹跟踪。在飞行阶段，采用联合PD控制器对姿态进行减速和保持。通过对比仿真验证了变减速比接头的特性。在单足机器人平台上实现了高度为30 cm的垂直跳跃实验。

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2020 IEEE-RAS 20th International Conference on Humanoid Robots (Humanoids)

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