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Removing ECG noise from surface EMG signals using adaptive filtering

Removing ECG noise from surface EMG signals using adaptive filtering
Removing ECG noise from surface EMG signals using adaptive filtering
Surface electromyograms (EMGs) are valuable in the pathophysiological study and clinical treatment for dystonia. These recordings are critically often contaminated by cardiac artefact. Our objective of this study was to evaluate the performance of an adaptive noise cancellation filter in removing electrocardiogram (ECG) interference from surface EMGs recorded from the trapezius muscles of patients with cervical dystonia. Performance of the proposed recursive-least-square adaptive filter was first quantified by coherence and signal-to-noise ratio measures in simulated noisy EMG signals. The influence of parameters such as the signal-to-noise ratio, forgetting factor, filter order and regularisation factor were assessed. Fast convergence of the recursive-least-square algorithm enabled the filter to track complex dystonic EMGs and effectively remove ECG noise. This adaptive filter procedure proved a reliable and efficient tool to remove ECG artefact from surface EMGs with mixed and varied patterns of transient, short and long lasting dystonic contractions
dystonia, surface electromyogram, electrocardiogram, adaptive noise cancellation, adaptive filter, recursive-least-square
0304-3940
14-19
Lu, Guohua
530b4624-1fe1-47d4-9313-b65f7ccb5118
Brittain, John-Stuart
266a8130-c5c1-48d7-825d-bf68b8455e41
Holland, Peter
5daa37e2-34cb-4581-8ae2-5dcd1e639bf4
Yianni, John
940fddfe-1c78-4845-9d1a-3d667d27be72
Green, Alexander L.
099ecb5e-2d66-41f3-9d1b-dc723a9bb01f
Stein, John F.
341274f8-3eee-4614-958c-635e0b498d78
Aziz, Tipu Z.
84768d79-fc87-4c3e-8955-d2e72ca5e6a0
Wang, Shouyan
fa12f1bf-cac9-4118-abdd-9d52f235b05c
Lu, Guohua
530b4624-1fe1-47d4-9313-b65f7ccb5118
Brittain, John-Stuart
266a8130-c5c1-48d7-825d-bf68b8455e41
Holland, Peter
5daa37e2-34cb-4581-8ae2-5dcd1e639bf4
Yianni, John
940fddfe-1c78-4845-9d1a-3d667d27be72
Green, Alexander L.
099ecb5e-2d66-41f3-9d1b-dc723a9bb01f
Stein, John F.
341274f8-3eee-4614-958c-635e0b498d78
Aziz, Tipu Z.
84768d79-fc87-4c3e-8955-d2e72ca5e6a0
Wang, Shouyan
fa12f1bf-cac9-4118-abdd-9d52f235b05c

Lu, Guohua, Brittain, John-Stuart, Holland, Peter, Yianni, John, Green, Alexander L., Stein, John F., Aziz, Tipu Z. and Wang, Shouyan (2009) Removing ECG noise from surface EMG signals using adaptive filtering. Neuroscience Letters, 462 (1), 14-19. (doi:10.1016/j.neulet.2009.06.063).

Record type: Article

Abstract

Surface electromyograms (EMGs) are valuable in the pathophysiological study and clinical treatment for dystonia. These recordings are critically often contaminated by cardiac artefact. Our objective of this study was to evaluate the performance of an adaptive noise cancellation filter in removing electrocardiogram (ECG) interference from surface EMGs recorded from the trapezius muscles of patients with cervical dystonia. Performance of the proposed recursive-least-square adaptive filter was first quantified by coherence and signal-to-noise ratio measures in simulated noisy EMG signals. The influence of parameters such as the signal-to-noise ratio, forgetting factor, filter order and regularisation factor were assessed. Fast convergence of the recursive-least-square algorithm enabled the filter to track complex dystonic EMGs and effectively remove ECG noise. This adaptive filter procedure proved a reliable and efficient tool to remove ECG artefact from surface EMGs with mixed and varied patterns of transient, short and long lasting dystonic contractions

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More information

Published date: 18 September 2009
Keywords: dystonia, surface electromyogram, electrocardiogram, adaptive noise cancellation, adaptive filter, recursive-least-square
Organisations: Human Sciences Group

Identifiers

Local EPrints ID: 79149
URI: http://eprints.soton.ac.uk/id/eprint/79149
DOI: doi:10.1016/j.neulet.2009.06.063
ISSN: 0304-3940
PURE UUID: 56561407-ea2e-48dc-bdb2-35ff0afc9c28

Catalogue record

Date deposited: 12 Mar 2010
Last modified: 14 Mar 2024 00:28

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Contributors

Author: Guohua Lu
Author: John-Stuart Brittain
Author: Peter Holland
Author: John Yianni
Author: Alexander L. Green
Author: John F. Stein
Author: Tipu Z. Aziz
Author: Shouyan Wang

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