Surface electromyography signal for control of myoelectric prosthesis of the upper-limb using independent component analysis
College
Gokongwei College of Engineering
Document Type
Article
Source Title
Journal of Automation and Control Engineering
Volume
2
Issue
1
Publication Date
3-2014
Abstract
An electromyography signal that was taken from the surface of the stump-muscle of an amputee is used to control over the myoelectric prosthesis. We present a method of acquiring these signals over the surface of the skin by using a surface-EMG electrode connected to it. In this study, a five fingered prosthetic hand, actuated by five motors, one motor for each finger was used to simulate some of the hand action movements and assess its capability of giving control over each hand action movement. The study was concerned with the signal acquisition that controls the myoelectric prosthesis. ICA was applied to separate mutually independent components that are the result of surface electromyography signals which provided a promising method in the classification of hand action movement based on each level of muscle contractions. The study determined the pattern of each hand action based on the correlation between estimated percent Muscle Voluntary Contraction (%MVC) vs. degree of movement of the motor, and the correlation between the motor frequencies vs. the degree of movement of the motor.
html
Recommended Citation
Lazaro, J. B., Abuan, D. D., Linsangan, N. B., & Panganiban, A. G. (2014). Surface electromyography signal for control of myoelectric prosthesis of the upper-limb using independent component analysis. Journal of Automation and Control Engineering, 2 (1) Retrieved from https://animorepository.dlsu.edu.ph/faculty_research/7762
Disciplines
Controls and Control Theory | Electrical and Computer Engineering
Keywords
Myoelectric prosthesis; Electromyography; Microcontrollers
Upload File
wf_no
