Single Actuator Control Analysis of a Planar 3DOF Hopping Robot

Robotics science and systems : online proceedings Pub Date : 2005-06-08 DOI:10.15607/RSS.2005.I.020

N. Cherouvim, E. Papadopoulos

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引用次数: 26

Abstract

In this paper we explore the mechanism of energy transfer between the single actuated DOF of a one-legged hopping robot and the remaining unactuated DOFs, during stable running. The concept of the energy transfer mechanism is laid out, after which follows an analytical study. Using this study, an initial controller is derived for the control of a simple SLIP model with friction in the leg and hip, using a single actuator at the hip. We show that while this controller is capable of stable motion for the SLIP model, it does not lead to stable locomotion for the full realistic robot model with pitching body, leg inertia and friction in hip and leg. This indicates that the SLIP model often used for controller design may be unsuitable for this purpose. The necessary modifications are then made to the controller to achieve stable locomotion for the full model, again with a single, easy-toimplement actuator located at the hip. Finally, results are shown from applying the controller to the full model for a wide range of parameters leading to stable motions. Index Terms one-legged hopping robot, control, underactuated.

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平面三维跳跃机器人单作动器控制分析

本文研究了单足跳跃机器人在稳定运行过程中，单驱动自由度与其余非驱动自由度之间的能量传递机理。提出了能量传递机理的概念，并对其进行了分析研究。利用这项研究，推导了一个初始控制器，用于控制一个简单的滑移模型，该模型在腿部和臀部有摩擦，在臀部使用单个致动器。我们表明，虽然该控制器能够使SLIP模型稳定运动，但对于具有俯仰体、腿部惯性和髋关节和腿部摩擦的全逼真机器人模型，它不能导致稳定运动。这表明通常用于控制器设计的SLIP模型可能不适合此目的。然后对控制器进行必要的修改，以实现整个模型的稳定运动，再次使用位于髋关节的单个易于实现的致动器。最后，结果显示了从应用控制器到整个模型的大范围参数导致稳定的运动。单腿跳跃机器人，控制，欠驱动。

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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