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基于肌电图的健全个体和脊髓损伤个体肩肘运动学预测

EMG-based prediction of shoulder and elbow kinematics in able-bodied and spinal cord injured individuals.

作者信息

Au A T, Kirsch R F

机构信息

Department of Biomedical Engineering, Case Western Reserve University, and Cleveland VA Rehabilitation Research and Development FES Center, OH 44106, USA.

出版信息

IEEE Trans Rehabil Eng. 2000 Dec;8(4):471-80. doi: 10.1109/86.895950.

Abstract

We have evaluated the ability of a time-delayed artificial neural network (TDANN) to predict shoulder and elbow motions using only electromyographic (EMG) signals recorded from six shoulder and elbow muscles as inputs, both in able-bodied subjects and in subjects with tetraplegia arising from C5 spinal cord injury. For able-bodied subjects, all four joint angles (elbow flexion-extension and shoulder horizontal flexion-extension, elevation-depression, and internal-external rotation) were predicted with average root-mean-square (rms) errors of less than 20 degrees during movements of widely different complexities performed at different speeds and with different hand loads. The corresponding angular velocities and angular accelerations were predicted with even lower relative errors. For individuals with C5 tetraplegia, the absolute rms errors of the joint angles, velocities, and accelerations were actually smaller than for able-bodied subjects, but the relative errors were similar when the smaller movement ranges of the C5 subjects were taken into account. These results indicate that the EMG signals from shoulder and elbow muscles contain a significant amount of information about arm moVement kinematics that could be exploited to develop advanced control systems for augmenting or restoring shoulder and elbow movements to individuals with tetraplegia using functional neuromuscular stimulation of paralyzed muscles.

摘要

我们评估了延时人工神经网络(TDANN)仅使用从六块肩部和肘部肌肉记录的肌电图(EMG)信号作为输入来预测肩部和肘部运动的能力,研究对象包括健全受试者以及因C5脊髓损伤导致四肢瘫痪的受试者。对于健全受试者,在以不同速度、不同手部负荷进行的广泛不同复杂度的运动过程中,所有四个关节角度(肘部屈伸以及肩部水平屈伸、升降和内外旋转)的预测平均均方根(rms)误差小于20度。相应的角速度和角加速度的预测相对误差甚至更低。对于C5四肢瘫痪个体,关节角度、速度和加速度的绝对均方根误差实际上比健全受试者更小,但考虑到C5受试者较小的运动范围时,相对误差相似。这些结果表明,来自肩部和肘部肌肉的肌电信号包含了大量关于手臂运动运动学的信息,可利用这些信息开发先进的控制系统,通过对瘫痪肌肉进行功能性神经肌肉刺激,增强或恢复四肢瘫痪个体的肩部和肘部运动。

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