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On-line signal quality estimation of multichannel surface electromyograms

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Abstract

When multichannel surface-electromyography (MCSEMG) systems are used, there is a risk of recording low-quality signals. Such signals can be confusing for analysis and interpretation and can be caused by power-line interference, motion artifacts or poor electrode-skin contact. Usually, the electrode-skin impedance is measured to estimate the quality of the contact between the electrodes and the skin. However, this is not always practical, and the contact can change over short time-scales. A fast method is described to estimate the quality of individual signals of monopolar MCSEMG recordings based on volume conduction of myo-electric signals. The characteristics of the signals were described using two descriptor variables. Outliers (extreme data points) were detected in the two-dimensional distributions of the descriptor variables using a non-parametric technique, and the quality of the signals was estimated by their outlier probabilities. The method's performance was evaluated using 1 s long signals visually classified as very poor (G1), poor (G2) or good quality (G3). Recordings from different subjects, contraction levels and muscles were used. An optimum threshold at 0.05 outlier probability was proposed and resulted in classification accuracies of 100% and >70% for G1 and G2 signals, respectively, whereas <5% of the G3 signals were classified as poor. In conclusion, the proposed method estimated MCSEMG signal quality with high accuracy, compared with visual assessment, and is suitable for on-line implementation. The method could be applied to other multichannel sensor systems, with an arbitrary number of descriptor variables, when their distributions can be assumed to lie within a certain range.

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Authors and Affiliations

  1. Department of Biomedical Engineering & Informatics, University Hospital Ume⇘, Ume⇘, Sweden

    C. Grönlund & J. S. Karlsson

  2. Centre for Biomedical Engineering & Physics, Ume⇘ University, Ume⇘, Sweden

    C. Grönlund & J. S. Karlsson

  3. Human Movement Sciences Program, Norwegian University of Science & Technology, Trondheim, Norway

    K. Roeleveld & A. Holtermann

Authors
  1. C. Grönlund
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  2. K. Roeleveld
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  3. A. Holtermann
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  4. J. S. Karlsson
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Correspondence to C. Grönlund.

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Grönlund, C., Roeleveld, K., Holtermann, A. et al. On-line signal quality estimation of multichannel surface electromyograms. Med. Biol. Eng. Comput. 43, 357–364 (2005). https://doi.org/10.1007/BF02345813

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  • DOI: https://doi.org/10.1007/BF02345813

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