Pilot comparison of surface vs. implanted EMG for multifunctional prosthesis control

T. Farrell, R. Weir
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引用次数: 19

Abstract

The classification accuracies of controllers utilizing EMG input from six surface and ten intramuscular recordings are compared. In addition, the effect of including autoregressive (AR) parameters into the input sets is examined. The average accuracies from four subjects are reported. It was observed that surface recordings based solely on amplitude data did not perform well (21.1% error) but adding AR coefficients increased this accuracy substantially (10.3%). The intramuscular recordings performed comparably to the surface recordings with AR coefficients using all ten (13.2%) and a smaller set of six (12.1%) channels of intramuscular data. The subset of six channels was selected using multinomial logistic regression. It was observed that adding the AR coefficients to the intramuscular recordings also produced an improvement in classification accuracy for the six (92.8%) and ten (93.7%) channel input sets. To our knowledge this is the first work in more than three decades that explores the use of intramuscular EMG for the control of upper-limb prostheses and this work demonstrates that it is possible to achieve a decrease in classification error of nearly 40% by using intramuscular recordings.
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表面肌电与植入肌电在多功能假肢控制中的先导比较
比较了6个体表记录和10个肌内记录的肌电信号输入控制器的分类精度。此外,还研究了在输入集中加入自回归(AR)参数的影响。报告了四个实验对象的平均准确度。观察到,仅基于振幅数据的地面记录表现不佳(误差为21.1%),但添加AR系数可大大提高精度(10.3%)。肌内记录与具有AR系数的表面记录相比,使用所有10个(13.2%)通道和较小的6个(12.1%)通道的肌内数据。采用多项逻辑回归法选取6个通道的子集。观察到,将AR系数添加到肌内记录中也可以提高6个(92.8%)和10个(93.7%)通道输入集的分类准确率。据我们所知,这是三十多年来首次探索使用肌内肌电图来控制上肢假肢的工作,这项工作表明,通过使用肌内肌电记录可以减少近40%的分类误差。
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