Improving the Robustness of Real-Time Myoelectric Pattern Recognition against Arm Position Changes in Transradial Amputees

Previous studies have showed that arm position variations would significantly degrade the classification performance of myoelectric pattern-recognition-based prosthetic control, and the cascade classifier (CC) and multiposition classifier (MPC) have been proposed to minimize such degradation in offl...

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Published in	BioMed research international Vol. 2017; no. 2017; pp. 1 - 10
Main Authors	Li, Guanglin, Wei, Yue, Samuel, Oluwarotimi Williams, Geng, Yanjuan
Format	Journal Article
Language	English
Published	Cairo, Egypt Hindawi Publishing Corporation 01.01.2017 Hindawi John Wiley & Sons, Inc
Subjects	Accuracy Adult Amputation Amputees Analysis Arm - physiology Artificial Limbs Classification Elbow Electrodes Electromyography Electromyography - methods Health aspects Humans Investigations Laboratories Male Middle Aged Motion Movement - physiology Myoelectric prosthesis Pattern recognition Pattern Recognition, Automated - methods Prostheses Prosthesis Design - methods Real-time control Real-time systems Sensors United States > US China
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Abstract	Previous studies have showed that arm position variations would significantly degrade the classification performance of myoelectric pattern-recognition-based prosthetic control, and the cascade classifier (CC) and multiposition classifier (MPC) have been proposed to minimize such degradation in offline scenarios. However, it remains unknown whether these proposed approaches could also perform well in the clinical use of a multifunctional prosthesis control. In this study, the online effect of arm position variation on motion identification was evaluated by using a motion-test environment (MTE) developed to mimic the real-time control of myoelectric prostheses. The performance of different classifier configurations in reducing the impact of arm position variation was investigated using four real-time metrics based on dataset obtained from transradial amputees. The results of this study showed that, compared to the commonly used motion classification method, the CC and MPC configurations improved the real-time performance across seven classes of movements in five different arm positions (8.7% and 12.7% increments of motion completion rate, resp.). The results also indicated that high offline classification accuracy might not ensure good real-time performance under variable arm positions, which necessitated the investigation of the real-time control performance to gain proper insight on the clinical implementation of EMG-pattern-recognition-based controllers for limb amputees.
AbstractList	Previous studies have showed that arm position variations would significantly degrade the classification performance of myoelectric pattern-recognition-based prosthetic control, and the cascade classifier (CC) and multiposition classifier (MPC) have been proposed to minimize such degradation in offline scenarios. However, it remains unknown whether these proposed approaches could also perform well in the clinical use of a multifunctional prosthesis control. In this study, the online effect of arm position variation on motion identification was evaluated by using a motion-test environment (MTE) developed to mimic the real-time control of myoelectric prostheses. The performance of different classifier configurations in reducing the impact of arm position variation was investigated using four real-time metrics based on dataset obtained from transradial amputees. The results of this study showed that, compared to the commonly used motion classification method, the CC and MPC configurations improved the real-time performance across seven classes of movements in five different arm positions (8.7% and 12.7% increments of motion completion rate, resp.). The results also indicated that high offline classification accuracy might not ensure good real-time performance under variable arm positions, which necessitated the investigation of the real-time control performance to gain proper insight on the clinical implementation of EMG-pattern-recognition-based controllers for limb amputees.Previous studies have showed that arm position variations would significantly degrade the classification performance of myoelectric pattern-recognition-based prosthetic control, and the cascade classifier (CC) and multiposition classifier (MPC) have been proposed to minimize such degradation in offline scenarios. However, it remains unknown whether these proposed approaches could also perform well in the clinical use of a multifunctional prosthesis control. In this study, the online effect of arm position variation on motion identification was evaluated by using a motion-test environment (MTE) developed to mimic the real-time control of myoelectric prostheses. The performance of different classifier configurations in reducing the impact of arm position variation was investigated using four real-time metrics based on dataset obtained from transradial amputees. The results of this study showed that, compared to the commonly used motion classification method, the CC and MPC configurations improved the real-time performance across seven classes of movements in five different arm positions (8.7% and 12.7% increments of motion completion rate, resp.). The results also indicated that high offline classification accuracy might not ensure good real-time performance under variable arm positions, which necessitated the investigation of the real-time control performance to gain proper insight on the clinical implementation of EMG-pattern-recognition-based controllers for limb amputees. Previous studies have showed that arm position variations would significantly degrade the classification performance of myoelectric pattern-recognition-based prosthetic control, and the cascade classifier (CC) and multiposition classifier (MPC) have been proposed to minimize such degradation in offline scenarios. However, it remains unknown whether these proposed approaches could also perform well in the clinical use of a multifunctional prosthesis control. In this study, the online effect of arm position variation on motion identification was evaluated by using a motion-test environment (MTE) developed to mimic the real-time control of myoelectric prostheses. The performance of different classifier configurations in reducing the impact of arm position variation was investigated using four real-time metrics based on dataset obtained from transradial amputees. The results of this study showed that, compared to the commonly used motion classification method, the CC and MPC configurations improved the real-time performance across seven classes of movements in five different arm positions (8.7% and 12.7% increments of motion completion rate, resp.). The results also indicated that high offline classification accuracy might not ensure good real-time performance under variable arm positions, which necessitated the investigation of the real-time control performance to gain proper insight on the clinical implementation of EMG-pattern-recognition-based controllers for limb amputees.
Audience	Academic
Author	Samuel, Oluwarotimi Williams Geng, Yanjuan Li, Guanglin Wei, Yue
AuthorAffiliation	2 Institute of Biomedical and Health Engineering, SIAT, CAS, Shenzhen 518055, China 3 Shenzhen College of Advanced Technology, University of Chinese Academy of Sciences, Shenzhen 518055, China 1 CAS Key Laboratory of Human-Machine Intelligence-Synergy Systems, Shenzhen Institutes of Advanced Technology (SIAT), Chinese Academy of Sciences (CAS), Shenzhen 518055, China
AuthorAffiliation_xml	– name: 1 CAS Key Laboratory of Human-Machine Intelligence-Synergy Systems, Shenzhen Institutes of Advanced Technology (SIAT), Chinese Academy of Sciences (CAS), Shenzhen 518055, China – name: 2 Institute of Biomedical and Health Engineering, SIAT, CAS, Shenzhen 518055, China – name: 3 Shenzhen College of Advanced Technology, University of Chinese Academy of Sciences, Shenzhen 518055, China
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ContentType	Journal Article
Copyright	Copyright © 2017 Yanjuan Geng et al. COPYRIGHT 2017 John Wiley & Sons, Inc. Copyright © 2017 Yanjuan Geng et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Copyright © 2017 Yanjuan Geng et al. 2017
Copyright_xml	– notice: Copyright © 2017 Yanjuan Geng et al. – notice: COPYRIGHT 2017 John Wiley & Sons, Inc. – notice: Copyright © 2017 Yanjuan Geng et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. – notice: Copyright © 2017 Yanjuan Geng et al. 2017
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Snippet	Previous studies have showed that arm position variations would significantly degrade the classification performance of myoelectric pattern-recognition-based...
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SubjectTerms	Accuracy Adult Amputation Amputees Analysis Arm - physiology Artificial Limbs Classification Elbow Electrodes Electromyography Electromyography - methods Health aspects Humans Investigations Laboratories Male Middle Aged Motion Movement - physiology Myoelectric prosthesis Pattern recognition Pattern Recognition, Automated - methods Prostheses Prosthesis Design - methods Real-time control Real-time systems Sensors
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Title	Improving the Robustness of Real-Time Myoelectric Pattern Recognition against Arm Position Changes in Transradial Amputees
URI	https://search.emarefa.net/detail/BIM-1137416 https://dx.doi.org/10.1155/2017/5090454 https://www.ncbi.nlm.nih.gov/pubmed/28523276 https://www.proquest.com/docview/1896067498 https://www.proquest.com/docview/1900839399 https://pubmed.ncbi.nlm.nih.gov/PMC5421097
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