两足机器人势能守恒轨道动态行走控制

EEE International Workshop on Intelligent Robots and Systems, Towards a New Frontier of Applications Pub Date : 1990-07-03 DOI:10.1109/IROS.1990.262497

S. Kajita, K. Tanie, A. Kobayashi

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引用次数: 35

摘要

为了减少双足动物复杂的行走动力学，考虑了理想双足动物模型中应用重力补偿导出的一类特殊轨迹。轨迹具有以下性质:(a)物体的重心水平运动，(b)重心的水平运动可以用简单的线性微分方程表示。将重心沿其运动的轨道命名为势能守恒轨道。在简单动力学的基础上，建立了两足机器人动态行走的控制规律。研究表明，行走运动是由支撑腿交换决定的。此外，还考虑了行走控制的鲁棒性实现。设计了一种近乎理想的两足行走机器人模型。

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Dynamic walk control of a biped robot along the potential energy conserving orbit

To reduce the complex walking dynamics of a biped, a particular class of trajectories derived by application of gravity compensation to an ideal biped model is considered. The trajectories have following properties: (a) the center of gravity of the body moves horizontally, and (b) the horizontal motion of the center of gravity can be expressed by a simple linear differential equation. The trajectory on which the center of gravity moves is named the potential energy conserving orbit. Based on its simple dynamics, the control laws for the dynamic biped walk are formulated. It is shown that the walking motion is determined by the support leg exchange. Moreover, robust realization of the walking control is considered. An experimental walking machine was designed as a nearly ideal biped model.<>

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EEE International Workshop on Intelligent Robots and Systems, Towards a New Frontier of Applications

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