Estimating hand and foot reaction forces based on a generalized zero moment point for rehabilitation assist system

Kunihiro Ogata, Hideyuki Tanaka, Y. Matsumoto
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Abstract

Elderly individuals are likely to develop locomotive disorders such as osteoarthritis or osteoporosis. This increases the risk of falls and makes independent movement difficult. Elderly individuals should better understand walking function to extend their healthy life. We therefore propose a new method for estimating hand and foot reaction forces using only visual markers and a monocular camera. When humans contact the environment with their hands, their hand and feet positions define a convex hull. A proposed “ generalized zero moment point ” is projected on this convex hull, which is approximated as a line or plane, and the distance between this point and each contact point is calculated. Reaction forces are calculated based on the ratios of these distances. Evaluation experiments show high agreement between estimated and measured forces of both hands and feet, confirming the validity of the proposed algorithm.
基于广义零力矩点的康复辅助系统手足反力估计
老年人很可能会出现运动障碍,如骨关节炎或骨质疏松症。这增加了跌倒的风险,使独立活动变得困难。老年人应更好地了解步行功能,以延长其健康生活。因此,我们提出了一种新的方法来估计手和脚的反作用力仅使用视觉标记和单目相机。当人类用手接触环境时,他们的手和脚的位置定义了一个凸壳。在这个凸包上投影一个建议的“广义零力矩点”,它近似为一条线或一个平面,并计算该点与每个接触点之间的距离。反作用力是根据这些距离的比值计算的。评估实验表明,估计的手和脚的力与测量的力具有很高的一致性,证实了算法的有效性。
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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