Wearable Electromyogram Design for Finger Movements Based Real-Time Human-Machine Interfaces

Authors : İsmail AYDOĞAN, Eda AKMAN AYDIN
Pages : 973-981
Doi:10.2339/politeknik.1117947
View : 270 | Download : 475
Publication Date : 2023-07-05
Article Type : Research Paper
Abstract :In this study, a wearable electromyogram insert ignore into journalissuearticles values(EMG); system on the forearm was designed to analyze finger movements for use in human-machine interfaces. The designed system measures the EMG signals without restricting the user\`s movements, analyzes these measurements through the software embedded in the system, and transmits the generated response to the output units to be controlled in real-time with wireless communication techniques. In the study, a three-channel EMG amplifier was designed and a system in which the NodeMCU V3 development board could be integrated was realized.With the system, the features of finger movements were obtained using the Mean Absolute Value insert ignore into journalissuearticles values(MAV); and classified using Support Vector Machines insert ignore into journalissuearticles values(SVM); and Random Forest insert ignore into journalissuearticles values(RF); methods. In offline tests, 99.47% accursacy with RF and 98.2% accuracy with SVM were obtained. The RF algorithm with 99.47% accuracy in offline tests was selected and integrated into the embedded system for online tests. In the online tests performed with five volunteers, the system was able to analyze finger movements with an average accuracy of 92.16%, and the commands associated with the finger movements analyzed by the system were sent to the clients with the User Datagram Protocol insert ignore into journalissuearticles values(UDP);, and the related movements were displayed on the output unit interface. The system can work in real-time with a delay of 90 ms and instantaneous movements can be seen visually on the designed output unit interface. This study is an important step in the detection of muscle diseases, the control of EMG-based wearable prosthetic systems, and the design of unmanned vehicles that can be controlled by finger movements.
Keywords : Elektromiyogram EMG, Giyilebilir sistemler, İnsan makine arayüzü, Parmak hareketleri

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