3D quasi-passive walking of bipedal robot with flat feet-quasi-passive walker driven by antagonistic pneumatic artificial muscle-

The 2012 International Conference on Advanced Mechatronic Systems Pub Date : 2012-10-15 DOI:10.1504/IJAMECHS.2013.055997

H. Watanabe, S. Fujimoto, K. Kawamoto

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引用次数: 4

Abstract

In this paper, We develop three-dimensional quasi-passive walker with flat feet driven by an antagonistic pneumatic artificial muscle. An antagonistic mechanism is constituted by a pair of McKibben muscles. And an antagonistic pneumatic system is used as joint actuators of linkage mechanisms which control the torque, joint stiffness and position simultaneously. However, it is more difficult to control the pneumatic actuator than a usual electric motor. Therefore, we also examined the structure of an ankle and the control method of an antagonistic pneumatic system. As a result, a three-dimensional quasi-passive walking is realizable by means of adjusting the stiffness of an ankle joint. From experimental results of quasi-passive walking, the average gait were obtained with the travel distance 1350 mm, the stride of a step 90 mm, and the number of steps 15 steps. It was demonstrated that the quasi-passive walking is stabilized when both the robotic motions in a lateral plane and in a sagittal plane are synchronized.

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双足平足机器人三维准被动行走-拮抗气动人工肌肉驱动的准被动行走器

本文研制了一种由拮抗气动人工肌肉驱动的三维准被动平足步行器。拮抗机制是由一对麦基本肌构成的。采用拮抗气动系统作为连杆机构的关节执行机构，同时控制力矩、关节刚度和位置。然而，气动执行器的控制比通常的电动马达要困难得多。因此，我们还研究了踝关节的结构和对抗气动系统的控制方法。通过调节踝关节的刚度，实现了三维准被动行走。从准被动步行的实验结果中，得到行走距离1350 mm，步幅90 mm，步数15步的平均步态。研究结果表明，当机器人在侧面和矢状面的运动同步时，准被动行走是稳定的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The 2012 International Conference on Advanced Mechatronic Systems

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