Bio-inspired standing balance controller for a full-mobilization exoskeleton

Romain Baud, J. Fasola, T. Vouga, A. Ijspeert, M. Bouri
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引用次数: 5

Abstract

This paper presents a novel method to perform automatic standing balance in a full mobilization exoskeleton. It exploits the locked ankle and the curved foot sole of the exoskeleton TWIICE. The idea is to use the knees to roll the sole and change the position of the contact point with the floor, which allows to stabilize without an actuated ankle.This controller is biologically inspired, originating from a previous experiment with the passive exoskeleton CAPTUR and healthy subjects. Then, a simulation model was built to test the observed balance strategy. Finally, the controller was implemented on the actual actuated exoskeleton, without a wearer for the time being, to experimentally check the basic operation. The next planned step is to test its actual performance with healthy subjects, then paraplegic patients.
仿生站立平衡控制器,用于全活动外骨骼
提出了一种在全活动外骨骼中实现自动站立平衡的新方法。它利用锁定的脚踝和外骨骼弯曲的脚底。这个想法是用膝盖来滚动鞋底,改变与地面接触点的位置,这样就可以在没有脚踝驱动的情况下保持稳定。这个控制器是生物学启发,源于以前的实验与被动式外骨骼CAPTUR和健康受试者。然后,建立仿真模型对观察到的平衡策略进行验证。最后,将控制器在实际驱动的外骨骼上实现,暂时不需要佩戴者,实验检查基本操作。下一步计划是在健康受试者身上测试其实际性能,然后是截瘫患者。
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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