A wavelet denoising approach for signal action isolation in the ear canal

Abstract: The goal of this work was to develop and implement a new filtering strategy to denoise acoustic signals in the ear canal resulting from voluntary movement of the tongue (as a method of generating control input), as well as from other active actions, (speech, eating, drinking, smoking), and passive actions (swallowing, adjusting the jaw, physiological activity). The strategy is based on a denoising wavelet shrinkage approach that separates rhythmic bursting activity and white noise representing sustained tonic … Show more

“…Apart from this, to de-noise the TMEP signal (i.e. the removal of random noise), an algorithm based on discrete wavelet thresholding was implemented [3]. There are several challenges when processing a TMEP signal captured from a real environment.…”

Multivariate Bayesian classification of tongue movement ear pressure signals based on the wavelet packet transform

“…Apart from this, to de-noise the TMEP signal (i.e. the removal of random noise), an algorithm based on discrete wavelet thresholding was implemented [3]. There are several challenges when processing a TMEP signal captured from a real environment.…”

Multivariate Bayesian classification of tongue movement ear pressure signals based on the wavelet packet transform

Robust real-time identification of tongue movement commands from interferences

Multi-layer neural network classification of tongue movement ear pressure signal for human machine interface