Adaptive whitening of the electromyogram to improve amplitude estimation

Previous research showed that whitening the surface electromyogram (EMG) can improve EMG amplitude estimation (where EMC amplitude is defined as the time-varying standard deviation of the EMG). However, conventional whitening via a linear filter seems to hit at low EMG amplitude levels, perhaps due to additive background noise in the measured EMG, This paper describes an adaptive whitening technique that overcomes this problem by cascading a nonadaptive whitening filter, an adaptive Wiener filter, and an adaptive gain correction. These stages can be calibrated from two, five second duration, constant-angle, constant-force contractions, one at a reference level [e,g,, 50% maximum voluntary contraction (MVC)] and one at 0% MVC, In experimental studies, subjects used real-time EMC amplitude estimates to track a uniform-density, band-limited random target, With a 0.25-Hz bandwidth target, either adaptive whitening or multiple-channel processing reduced the tracking error roughly half-way to the error achieved using the dynamometer signal as the feedback. At the 1.00-Hz bandwidth, all of the EMG processors had errors equivalent to that of the dynamometer signal, reflecting that errors in this task were dominated by subjects' inability to track targets at this bandwidth. Increases in the additive noise level, smoothing window length, and tracking bandwidth diminish the advantages of whitening.