IEEE Transactions on Neural Systems and Rehabilitation Engineering (Jan 2024)

Digital Sensing Systems for Electromyography

  • Eisa Aghchehli,
  • Iris Kyranou,
  • Matthew Dyson,
  • Kianoush Nazarpour

DOI
https://doi.org/10.1109/TNSRE.2024.3435740
Journal volume & issue
Vol. 32
pp. 2826 – 2834

Abstract

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Surface electromyogram (EMG) signals find diverse applications in movement rehabilitation and human-computer interfacing. For instance, future advanced prostheses, which use artificial intelligence, will require EMG signals recorded from several sites on the forearm. This requirement will entail complex wiring and data handling. We present the design and evaluation of a bespoke EMG sensing system that addresses the above challenges, enables distributed signal processing, and balances local versus global power consumption. Additionally, the proposed EMG system enables the recording and simultaneous analysis of skin-sensor impedance, needed to ensure signal fidelity. We evaluated the proposed sensing system in three experiments, namely, monitoring muscle fatigue, real-time skin-sensor impedance measurement, and control of a myoelectric computer interface. The proposed system offers comparable signal acquisition characteristics to that achieved by a clinically-approved product. It will serve and integrate future myoelectric technology better via enabling distributed machine learning and improving the signal transmission efficiency.

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