首页 /研究 /Exploring the effects of serial and parallel elasticity on a hopping robot
LOCOMOTION

Exploring the effects of serial and parallel elasticity on a hopping robot

Guoping Zhao, Omid Mohseni, Marc Murcia, André Seyfarth, Maziar A. Sharbafi

发表年份
2022
引用次数
11
访问权限
开放获取

摘要

The interaction between the motor control and the morphological design of the human leg is critical for generating efficient and robust locomotion. In this paper, we focus on exploring the effects of the serial and parallel elasticity on hopping with a two-segmented robotic leg called electric-pneumatic actuation (EPA)-Hopper. EPA-Hopper uses a hybrid actuation system that combines electric motors and pneumatic artificial muscles (PAM). It provides direct access to adjust the physical compliance of the actuation system by tuning PAM pressures. We evaluate the role of the serial and parallel PAMs with different levels of compliance with respect to four criteria: efficiency, performance, stability, and robustness of hopping against perturbations. The results show that the serial PAM has a more pronounced impact than the parallel PAM on these criteria. Increasing the stiffness of the serial PAM decreases the leg stiffness of the unloading phase during hopping. The stiffer the leg, the more efficient and the less robust the movement. These findings can help us further understand the human hopping mechanism and support the design and control of legged robots and assistive devices.

关键词

Computer scienceRobotRobustness (evolution)StiffnessPneumatic artificial musclesElasticity (physics)BiomimeticsSimulationControl theory (sociology)Artificial muscle

相关论文

查看 LOCOMOTION 分类全部论文