TY - JOUR
T1 - Gesture recognition for transhumeral prosthesis control using EMG and NIR
AU - Nsugbe, Ejay
AU - Phillips, Carol
AU - Fraser, Mike
AU - McIntosh, Jess
N1 - Publisher Copyright:
© 2020 IET and Zhejiang University. All right reserved.
PY - 2020/9/1
Y1 - 2020/9/1
N2 - A key challenge associated with myoelectric prosthesis limbs is the acquisition of a good quality gesture intent signal from the residual anatomy of an amputee. In this study, the authors aim to overcome this limitation by observing the classification accuracy of the fusion of wearable electromyography (EMG) and near-infrared (NIR) to classify eight hand gesture motions across 12 able-bodied participants. As part of the study, they investigate the classification accuracy across a multi-layer perceptron neural network, linear discriminant analysis and quadratic discriminant analysis for different sensing configurations, i.e. EMG-only, NIR-only and EMG-NIR. A separate offline ultrasound scan was conducted as part of the study and served as a ground truth and contrastive basis for the results picked up from the wearable sensors, and allowed for a closer study of the anatomy along the humerus during gesture motion. Results and findings from the work suggest that it could be possible to further develop transhumeral prosthesis using affordable, ergonomic and wearable EMG and NIR sensing, without the need for invasive neuromuscular sensors or further hardware complexity.
AB - A key challenge associated with myoelectric prosthesis limbs is the acquisition of a good quality gesture intent signal from the residual anatomy of an amputee. In this study, the authors aim to overcome this limitation by observing the classification accuracy of the fusion of wearable electromyography (EMG) and near-infrared (NIR) to classify eight hand gesture motions across 12 able-bodied participants. As part of the study, they investigate the classification accuracy across a multi-layer perceptron neural network, linear discriminant analysis and quadratic discriminant analysis for different sensing configurations, i.e. EMG-only, NIR-only and EMG-NIR. A separate offline ultrasound scan was conducted as part of the study and served as a ground truth and contrastive basis for the results picked up from the wearable sensors, and allowed for a closer study of the anatomy along the humerus during gesture motion. Results and findings from the work suggest that it could be possible to further develop transhumeral prosthesis using affordable, ergonomic and wearable EMG and NIR sensing, without the need for invasive neuromuscular sensors or further hardware complexity.
UR - http://www.scopus.com/inward/record.url?scp=85109041735&partnerID=8YFLogxK
U2 - 10.1049/iet-csr.2020.0008
DO - 10.1049/iet-csr.2020.0008
M3 - Article (Academic Journal)
AN - SCOPUS:85109041735
SN - 2631-6315
VL - 2
SP - 122
EP - 131
JO - IET Cyber-systems and Robotics
JF - IET Cyber-systems and Robotics
IS - 3
ER -