EMG Classification of Hand and Wrist Force Tasks Using Fractal Algorithms

The hand has excellent functional, aesthetic and social importance. However, Parkinson's disease, stroke, and other myopathies can cause motor impairments. Patients require a rehabilitation program to follow their progress, and one of the tools used to do that is the electromyographic (EMG) sig...

Full description

Saved in:
Bibliographic Details
Published in:IEEE Symposium on Computational Intelligence in Multi-Criteria Decision Making pp. 1054 - 1059
Main Authors: Perez-Espinoza, Marcos, Martinez-Peon, Dulce, Rivera, J. Fernando Gongora, Ortiz-Jimenez, Xochitl A., Esparza, Michelle Contro, Maldonado-Jauregui, Juan, Tinoco-Ramirez, Isaac, Castillo-Herrera, Francisco, Estrada-Cortez, Hector
Format: Conference Proceeding
Language:English
Published: IEEE 05.12.2023
Subjects:
Electroencephalography
electromyographic signals
Electromyography
Feature extraction
force tasks
Medical treatment
Multiclass
Multilayer perceptrons
Signal processing algorithms
Wrist
wrist and forearm
ISSN:2472-8322
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The hand has excellent functional, aesthetic and social importance. However, Parkinson's disease, stroke, and other myopathies can cause motor impairments. Patients require a rehabilitation program to follow their progress, and one of the tools used to do that is the electromyographic (EMG) signals. This article proposes using algorithms to characterize and classify EMG signals during force exercises for the wrist and forearm. Eight healthy subjects participated in this study. They performed seven exercises, making five trials for each one. Signal features were analyzed in different time windows using a genetic algorithm and machine learning techniques to select the window that maximizes the classification. Combining four electrodes, seven exercises, and 14 algorithms achieved a classification accuracy of 92.41 % using the Multilayer Perceptron classifier. The study demonstrates a highly reliable method for classifying forearm and wrist exercises based on EMG signals, useful for exoskeletons or rehabilitation platforms. Future work will focus on implementing EMG signals to enhance motor rehabilitation therapy and provide findings that will help the scientific community investigate the combination of EEG signals for rehabilitation purposes.
ISSN:2472-8322
DOI:10.1109/SSCI52147.2023.10371892