一种用于神经康复的螺旋驱动机器人的特性与控制

Proceedings of the 2001 IEEE International Conference on Control Applications (CCA'01) (Cat. No.01CH37204) Pub Date : 2001-09-05 DOI:10.1109/CCA.2001.973896

S. Buerger, H. I. Krebs, N. Hogan

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引用次数: 28

摘要

讨论了一种治疗机器人模块的特性和控制。螺旋驱动模块将现有用于神经康复的机器人的工作空间从二维扩展到三维。强调了这种器件对低端点阻抗的需求，并对影响端点阻抗的因素进行了考虑和评估。我们评估了致动器和控制系统的带宽，并讨论了一系列实验来表征摩擦、重力和有效端点惯性。对降低有效端点阻抗的几种主动控制方法进行了探讨和比较。发现比例力反馈比基于模型的方法更有效地降低阻抗。

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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Characterization and control of a screw-driven robot for neurorehabilitation

The characterization and control of a module for a therapy robot is discussed. The screw-driven module expands the workspace of an existing robot used for neuro-rehabilitation from two to three dimensions. The need for low endpoint impedance in such devices is emphasized, and the factors influencing endpoint impedance are considered and evaluated for the new device. We evaluate the actuator and control system bandwidths and discuss a series of experiments to characterize the friction, gravitational force, and effective endpoint inertia. Several methods of active control for reducing effective endpoint impedance are explored and compared. Proportional force feedback was found to reduce impedance more effectively than model-based methods.

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Proceedings of the 2001 IEEE International Conference on Control Applications (CCA'01) (Cat. No.01CH37204)

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