Stacked Sparse Autoencoders for EMG-Based Classification of Hand Motions: A Comparative Multi Day Analyses between Surface and Intramuscular EMG

Stacked Sparse Autoencoders for EMG-Based Classification of Hand Motions: A Comparative Multi Day Analyses between Surface and Intramuscular EMG

Advances in myoelectric interfaces have increased the use of wearable prosthetics including robotic arms. Although promising results have been achieved with pattern recognition-based control schemes, control robustness requires improvement to increase user acceptance of prosthetic hands. The aim of...

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Main Authors: Muhammad Zia ur Rehman, Syed Omer Gilani, Asim Waris, Imran Khan Niazi, Gregory Slabaugh, Dario Farina, Ernest Nlandu Kamavuako
Format: Article
Language:English
Published: MDPI AG 2018-07-01
Series:Applied Sciences
Subjects:
deep networks
myocontrol
biomedical signal processing
surface EMG
intramuscular EMG
autoencoders
Online Access:http://www.mdpi.com/2076-3417/8/7/1126
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spelling doaj-06054eab07e14afc99d240ddabf48a832020-11-25T00:55:59ZengMDPI AGApplied Sciences2076-34172018-07-0187112610.3390/app8071126app8071126Stacked Sparse Autoencoders for EMG-Based Classification of Hand Motions: A Comparative Multi Day Analyses between Surface and Intramuscular EMGMuhammad Zia ur Rehman0Syed Omer Gilani1Asim Waris2Imran Khan Niazi3Gregory Slabaugh4Dario Farina5Ernest Nlandu Kamavuako6Department of Robotics & Artificial Intelligence, School of Mechanical & Manufacturing Engineering, National University of Sciences & Technology (NUST), Islamabad 44000, PakistanDepartment of Robotics & Artificial Intelligence, School of Mechanical & Manufacturing Engineering, National University of Sciences & Technology (NUST), Islamabad 44000, PakistanDepartment of Robotics & Artificial Intelligence, School of Mechanical & Manufacturing Engineering, National University of Sciences & Technology (NUST), Islamabad 44000, PakistanDepartment of Robotics & Artificial Intelligence, School of Mechanical & Manufacturing Engineering, National University of Sciences & Technology (NUST), Islamabad 44000, PakistanDepartment of Computer Science, City University of London, London EC1V 0HB, UKDepartment Bioengineering, Imperial College London, London SW7 2AZ, UKCentre for Robotics Research, Department of Informatics, King’s College London, London WC2G 4BG, UKAdvances in myoelectric interfaces have increased the use of wearable prosthetics including robotic arms. Although promising results have been achieved with pattern recognition-based control schemes, control robustness requires improvement to increase user acceptance of prosthetic hands. The aim of this study was to quantify the performance of stacked sparse autoencoders (SSAE), an emerging deep learning technique used to improve myoelectric control and to compare multiday surface electromyography (sEMG) and intramuscular (iEMG) recordings. Ten able-bodied and six amputee subjects with average ages of 24.5 and 34.5 years, respectively, were evaluated using offline classification error as the performance matric. Surface and intramuscular EMG were concurrently recorded while each subject performed 11 hand motions. Performance of SSAE was compared with that of linear discriminant analysis (LDA) classifier. Within-day analysis showed that SSAE (1.38 ± 1.38%) outperformed LDA (8.09 ± 4.53%) using both the sEMG and iEMG data from both able-bodied and amputee subjects (p < 0.001). In the between-day analysis, SSAE outperformed LDA (7.19 ± 9.55% vs. 22.25 ± 11.09%) using both sEMG and iEMG data from both able-bodied and amputee subjects. No significant difference in performance was observed for within-day and pairs of days with eight-fold validation when using iEMG and sEMG with SSAE, whereas sEMG outperformed iEMG (p < 0.001) in between-day analysis both with two-fold and seven-fold validation schemes. The results obtained in this study imply that SSAE can significantly improve the performance of pattern recognition-based myoelectric control scheme and has the strength to extract deep information hidden in the EMG data.http://www.mdpi.com/2076-3417/8/7/1126deep networksmyocontrolbiomedical signal processingsurface EMGintramuscular EMGautoencoders
collection DOAJ
language English
format Article
sources DOAJ
author Muhammad Zia ur Rehman
Syed Omer Gilani
Asim Waris
Imran Khan Niazi
Gregory Slabaugh
Dario Farina
Ernest Nlandu Kamavuako
spellingShingle Muhammad Zia ur Rehman
Syed Omer Gilani
Asim Waris
Imran Khan Niazi
Gregory Slabaugh
Dario Farina
Ernest Nlandu Kamavuako
Stacked Sparse Autoencoders for EMG-Based Classification of Hand Motions: A Comparative Multi Day Analyses between Surface and Intramuscular EMG
Applied Sciences
deep networks
myocontrol
biomedical signal processing
surface EMG
intramuscular EMG
autoencoders
author_facet Muhammad Zia ur Rehman
Syed Omer Gilani
Asim Waris
Imran Khan Niazi
Gregory Slabaugh
Dario Farina
Ernest Nlandu Kamavuako
author_sort Muhammad Zia ur Rehman
title Stacked Sparse Autoencoders for EMG-Based Classification of Hand Motions: A Comparative Multi Day Analyses between Surface and Intramuscular EMG
title_short Stacked Sparse Autoencoders for EMG-Based Classification of Hand Motions: A Comparative Multi Day Analyses between Surface and Intramuscular EMG
title_full Stacked Sparse Autoencoders for EMG-Based Classification of Hand Motions: A Comparative Multi Day Analyses between Surface and Intramuscular EMG
title_fullStr Stacked Sparse Autoencoders for EMG-Based Classification of Hand Motions: A Comparative Multi Day Analyses between Surface and Intramuscular EMG
title_full_unstemmed Stacked Sparse Autoencoders for EMG-Based Classification of Hand Motions: A Comparative Multi Day Analyses between Surface and Intramuscular EMG
title_sort stacked sparse autoencoders for emg-based classification of hand motions: a comparative multi day analyses between surface and intramuscular emg
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2018-07-01
description Advances in myoelectric interfaces have increased the use of wearable prosthetics including robotic arms. Although promising results have been achieved with pattern recognition-based control schemes, control robustness requires improvement to increase user acceptance of prosthetic hands. The aim of this study was to quantify the performance of stacked sparse autoencoders (SSAE), an emerging deep learning technique used to improve myoelectric control and to compare multiday surface electromyography (sEMG) and intramuscular (iEMG) recordings. Ten able-bodied and six amputee subjects with average ages of 24.5 and 34.5 years, respectively, were evaluated using offline classification error as the performance matric. Surface and intramuscular EMG were concurrently recorded while each subject performed 11 hand motions. Performance of SSAE was compared with that of linear discriminant analysis (LDA) classifier. Within-day analysis showed that SSAE (1.38 ± 1.38%) outperformed LDA (8.09 ± 4.53%) using both the sEMG and iEMG data from both able-bodied and amputee subjects (p < 0.001). In the between-day analysis, SSAE outperformed LDA (7.19 ± 9.55% vs. 22.25 ± 11.09%) using both sEMG and iEMG data from both able-bodied and amputee subjects. No significant difference in performance was observed for within-day and pairs of days with eight-fold validation when using iEMG and sEMG with SSAE, whereas sEMG outperformed iEMG (p < 0.001) in between-day analysis both with two-fold and seven-fold validation schemes. The results obtained in this study imply that SSAE can significantly improve the performance of pattern recognition-based myoelectric control scheme and has the strength to extract deep information hidden in the EMG data.
topic deep networks
myocontrol
biomedical signal processing
surface EMG
intramuscular EMG
autoencoders
url http://www.mdpi.com/2076-3417/8/7/1126
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