On the EMG-based torque estimation for humans coupled with a force-controlled elbow exoskeleton

J. B. Ullauri, L. Peternel, B. Ugurlu, Yoji Yamada, J. Morimoto
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引用次数: 7

Abstract

Exoskeletons are successful at supporting human motion only when the necessary amount of power is provided at the right time. Exoskeleton control based on EMG signals can be utilized to command the required amount of support in real-time. To this end, one needs to map human muscle activity to the desired task-specific exoskeleton torques. In order to achieve such mapping, this paper analyzes two distinct methods to estimate the human-elbow-joint torque based on the related muscle activity. The first model is adopted from pneumatic artificial muscles (PAMs). The second model is based on a machine learning method known as Gaussian Process Regression (GPR). The performance of both approaches were assessed based on their ability to estimate the elbow-joint torque of two able-bodied subjects using EMG signals that were collected from biceps and triceps muscles. The experiments suggest that the GPR-based approach provides relatively more favorable predictions.
结合力控肘外骨骼的肌电转矩估计研究
只有在适当的时候提供必要的能量,外骨骼才能成功地支持人类的运动。基于肌电图信号的外骨骼控制可用于实时控制所需的支持量。为此,需要将人体肌肉活动映射到所需的任务特定外骨骼扭矩。为了实现这种映射,本文分析了基于相关肌肉活动估计人体肘关节扭矩的两种不同方法。第一种模型采用气动人工肌肉(PAMs)。第二个模型基于一种被称为高斯过程回归(GPR)的机器学习方法。两种方法的性能都是基于它们使用从二头肌和三头肌收集的肌电图信号来估计两个健全受试者的肘关节扭矩的能力来评估的。实验表明,基于gpr的方法提供了相对更有利的预测。
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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