Torque-control based compliant actuation of a quadruped robot

2012 12th IEEE International Workshop on Advanced Motion Control (AMC) Pub Date : 2012-03-25 DOI:10.1109/AMC.2012.6197133

Michele Focchi, Thiago Boaventura, C. Semini, M. Frigerio, J. Buchli, D. Caldwell

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引用次数: 32

Abstract

In the realm of legged locomotion, being compliant to external unperceived impacts is crucial when negotiating unstructured terrain. Impedance control is a useful framework to allow the robot to follow reference trajectories and, at the same time, handle external disturbances. To implement impedance control, high performance torque control in all joints is of great importance. In this paper, the torque control for the electric joints of the HyQ robot is described and its performance assessed. HyQ is a quadruped robot which has hybrid actuation: hydraulic and electric. This work complements our previous work, in which the torque control for the hydraulic joints was addressed. Subsequently, we describe the implementation of an impedance controller for the HyQ leg. Experimental results assess the tracking capability of a desired Cartesian force at the end-effector under the action of external disturbances. Another set of experiments involves the tracking and the shaping of different desired stiffness behaviors (stiffness ellipses) at the foot.

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基于转矩控制的四足机器人柔性驱动

在腿部运动的领域，当通过非结构化地形时，适应外部无法感知的影响是至关重要的。阻抗控制是一个有用的框架，允许机器人跟随参考轨迹，同时处理外部干扰。为了实现阻抗控制，对各关节进行高性能转矩控制是非常重要的。本文介绍了HyQ机器人电关节的转矩控制，并对其性能进行了评价。HyQ是一种四足机器人，具有液压和电动混合驱动。这项工作补充了我们之前的工作，其中解决了液压接头的扭矩控制问题。随后，我们描述了HyQ腿的阻抗控制器的实现。实验结果评估了在外部干扰作用下末端执行器的理想笛卡儿力的跟踪能力。另一组实验涉及跟踪和塑造不同期望的刚度行为(刚度椭圆)在脚下。

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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2012 12th IEEE International Workshop on Advanced Motion Control (AMC)

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