Three dimensional bipedal walking locomotion using dynamic passivization of joint control

Minoru Ishida, Shohei Kato, M. Kanoh, H. Itoh
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引用次数: 1

Abstract

A central pattern generator (CPG) and passive dynamic walking (PDW) have attracted much attention in the research field of bipedal locomotion. We describe a motion control method based on dynamic joint passivization for biped robot locomotion. CPG-based motion control is effective for walking on uneven terrain. However, it has serious problems with energy loss. In contrast, PDW saves energy because a robot can walk without any active control or energy input on a downhill slope. However, PDW robot can not walk on uneven terrain, but only on a downhill slope. We think that active walking needs to be mixed with PDW for robot walking. Our motion control method is based on a mixture of the CPG and PDW, that is, the dynamic passivization of joint control. Experiments using the motion control method based on dynamic passivization of joint control successfully generated energy efficient walking and enabled superior gaits.
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基于动态钝化关节控制的三维双足行走运动
中心模式发生器(CPG)和被动动态行走(PDW)是两足运动研究领域的热点。提出了一种基于动态关节钝化的双足机器人运动控制方法。基于cpg的运动控制对于在不平坦地形上行走是有效的。然而,它有严重的能量损失问题。相比之下,PDW节省了能量,因为机器人可以在没有任何主动控制或能量输入的情况下在下坡上行走。然而,PDW机器人不能在不平坦的地形上行走,只能在下坡上行走。我们认为主动步行需要与PDW相结合。我们的运动控制方法是基于CPG和PDW的混合,即关节控制的动态钝化。采用基于关节控制动态钝化的运动控制方法进行实验,成功地产生了节能步行,实现了优越的步态。
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