Evaluation of hand action classification performance using machine learning based on signals from two sEMG electrodes
Evaluation of hand action classification performance using machine learning based on signals from two sEMG electrodes
Classification-based myoelectric control has attracted significant interest in recent years, leading to prosthetic hands with advanced functionality, such as multi-grip hands. Thus far, high classification accuracies have been achieved by increasing the number of surface electromyography (sEMG) electrodes or adding other sensing mechanisms. While many prescribed myoelectric hands still adopt two-electrode sEMG systems, detailed studies on signal processing and classification performance are still lacking. In this study, nine able-bodied participants were recruited to perform six typical hand actions, from which sEMG signals from two electrodes were acquired using a Delsys Trigno Research+ acquisition system. Signal processing and machine learning algorithms, specifically, linear discriminant analysis (LDA), k-nearest neighbors (KNN), and support vector machines (SVM), were used to study classification accuracies. Overall classification accuracy of 93 ± 2%, action-specific accuracy of 97 ± 2%, and F1-score of 87 ± 7% were achieved, which are comparable with those reported from multi-electrode systems. The highest accuracies were achieved using SVM algorithm compared to LDA and KNN algorithms. A logarithmic relationship between classification accuracy and number of features was revealed, which plateaued at five features. These comprehensive findings may potentially contribute to signal processing and machine learning strategies for commonly prescribed myoelectric hand systems with two sEMG electrodes to further improve functionality.
Shaw, Hope O.
b98622aa-8c92-4912-9bf7-78f88d30bed6
Devin, Kirstie M.
17564d09-f686-4686-a39f-65ce0f4d160b
Tang, Jinghua
b4b9a22c-fd6d-427a-9ab1-51184c1d2a2c
Jiang, Liudi
374f2414-51f0-418f-a316-e7db0d6dc4d1
9 April 2024
Shaw, Hope O.
b98622aa-8c92-4912-9bf7-78f88d30bed6
Devin, Kirstie M.
17564d09-f686-4686-a39f-65ce0f4d160b
Tang, Jinghua
b4b9a22c-fd6d-427a-9ab1-51184c1d2a2c
Jiang, Liudi
374f2414-51f0-418f-a316-e7db0d6dc4d1
Shaw, Hope O., Devin, Kirstie M., Tang, Jinghua and Jiang, Liudi
(2024)
Evaluation of hand action classification performance using machine learning based on signals from two sEMG electrodes.
Sensors (Basel, Switzerland), 24 (8), [2383].
(doi:10.3390/s24082383).
Abstract
Classification-based myoelectric control has attracted significant interest in recent years, leading to prosthetic hands with advanced functionality, such as multi-grip hands. Thus far, high classification accuracies have been achieved by increasing the number of surface electromyography (sEMG) electrodes or adding other sensing mechanisms. While many prescribed myoelectric hands still adopt two-electrode sEMG systems, detailed studies on signal processing and classification performance are still lacking. In this study, nine able-bodied participants were recruited to perform six typical hand actions, from which sEMG signals from two electrodes were acquired using a Delsys Trigno Research+ acquisition system. Signal processing and machine learning algorithms, specifically, linear discriminant analysis (LDA), k-nearest neighbors (KNN), and support vector machines (SVM), were used to study classification accuracies. Overall classification accuracy of 93 ± 2%, action-specific accuracy of 97 ± 2%, and F1-score of 87 ± 7% were achieved, which are comparable with those reported from multi-electrode systems. The highest accuracies were achieved using SVM algorithm compared to LDA and KNN algorithms. A logarithmic relationship between classification accuracy and number of features was revealed, which plateaued at five features. These comprehensive findings may potentially contribute to signal processing and machine learning strategies for commonly prescribed myoelectric hand systems with two sEMG electrodes to further improve functionality.
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Evaluation of Hand Action Classification Performance Using Machine Learning Based on Signals from Two sEMG Electrodes Manuscript
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Accepted/In Press date: 30 March 2024
Published date: 9 April 2024
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Local EPrints ID: 489039
URI: http://eprints.soton.ac.uk/id/eprint/489039
ISSN: 1424-8220
PURE UUID: 2301bf6c-75c8-4ccf-9dd2-daedf64074fa
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Date deposited: 11 Apr 2024 16:52
Last modified: 12 Apr 2024 01:58
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Author:
Hope O. Shaw
Author:
Kirstie M. Devin
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