Abstract
Objective: High-density electromyography (EMG) is useful for studying changes in myoelectric activity within a muscle during human movement, but it is prone to motion artifacts during locomotion. We compared canonical correlation analysis and principal component analysis methods for signal decomposition and component filtering with a traditional EMG high-pass filtering approach to quantify their relative performance at removing motion artifacts from high-density EMG of the gastrocnemius and tibialis anterior muscles during human walking and running. Results: Canonical correlation analysis filtering provided a greater reduction in signal content at frequency bands associated with motion artifacts than either traditional high-pass filtering or principal component analysis filtering. Canonical correlation analysis filtering also minimized signal reduction at frequency bands expected to consist of true myoelectric signal. Conclusions: Canonical correlation analysis filtering appears to outperform a standard high-pass filter and principal component analysis filter in cleaning high-density EMG collected during fast walking or running.
Highlights
B IPOLAR surface electromyography (EMG) has long been the gold standard for recording electrical activity fromManuscript received February 14, 2020; revised April 15, 2020 and May 15, 2020; accepted May 29, 2020
Using component decomposition filtering methods to clean the channel data prior to high-pass filtering (Table I). Both principal component analysis and canonical correlation analysis decreased the number of rejected channels across all speeds when compared to standard high-pass filtering
Canonical correlation analysis significantly reduced the number of rejected channels at lower running speeds (2.0 and 3.0 m/s; p
Summary
B IPOLAR surface electromyography (EMG) has long been the gold standard for recording electrical activity fromManuscript received February 14, 2020; revised April 15, 2020 and May 15, 2020; accepted May 29, 2020. B IPOLAR surface electromyography (EMG) has long been the gold standard for recording electrical activity from. This article has supplementary downloadable material available at https://ieeexplore.ieee.org, provided by the authors. A bipolar recording is the most widely-used configuration [2], its scope is limited to a single recording site on the target muscle. The signal recorded from this site is a summation of many muscle fibers and motor units active in that area [3]. There are spatial variations in EMG activity recorded from several sites on the same muscle, and small deviations in electrode placement can lead to different conclusions regarding muscle function [4]–[6]
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