Adaptive body weight support controls human activity during robot-aided gait training

2009 IEEE International Conference on Rehabilitation Robotics Pub Date : 2009-06-23 DOI:10.1109/ICORR.2009.5209619

A. Duschau-Wicke, S. Felsenstein, R. Riener

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引用次数: 8

Abstract

Current clinical practice of robot-aided gait training is not as effective as expected. Cooperative control strategies aim at improving the effectiveness of robot-aided training by empowering patients to participate more actively. Our group has recently proposed the concept of bio-cooperative control, which explicitely considers the role of the human in the loop, as an extension of these strategies. A supervising controller adapts the cooperative control loops in a way that guarantees appropriate stimuli and prevents undue stress or harm for the patients. In this paper, we implement this concept with an adaptive body weight support algorithm. The algorithm was evaluated with the Lokomat gait rehabilitation robot and the Lokolift body weight support system. Experiments showed that human activity was successfully controlled during Lokomat walking. The desired level of activity was effectively limited when subjects simulated weakness in load bearing. The proposed algorithm may help to train patients with neurological gait impairments in a more engaging and, thus, hopefully more effective way.

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在机器人辅助步态训练中，自适应体重支持控制人类活动

目前机器人辅助步态训练的临床实践并不像预期的那样有效。协作控制策略旨在通过赋予患者更积极的参与能力来提高机器人辅助训练的有效性。我们的小组最近提出了生物合作控制的概念，它明确地考虑了人类在回路中的作用，作为这些策略的延伸。监督控制器以一种保证适当刺激和防止患者过度压力或伤害的方式适应合作控制回路。在本文中，我们使用自适应体重支持算法来实现这一概念。用Lokomat步态康复机器人和Lokolift体重支撑系统对算法进行了评价。实验表明，在Lokomat行走过程中，人类活动得到了成功的控制。当受试者模拟负重无力时，期望的活动水平受到有效限制。所提出的算法可能有助于以一种更有吸引力、更有效的方式训练神经性步态障碍患者。

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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2009 IEEE International Conference on Rehabilitation Robotics

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