Exploring the EMG transient: the muscular activation sequences used as novel time-domain features for hand gestures classification

Federico Mereu; Federico Morosato; Francesca Cordella; Loredana Zollo; Emanuele Gruppioni

doi:10.3389/fnbot.2023.1264802

Exploring the EMG transient: the muscular activation sequences used as novel time-domain features for hand gestures classification

Front Neurorobot. 2023 Nov 10:17:1264802. doi: 10.3389/fnbot.2023.1264802. eCollection 2023.

Authors

Federico Mereu^{1

2}, Federico Morosato¹, Francesca Cordella², Loredana Zollo², Emanuele Gruppioni¹

Affiliations

¹ Centro Protesi Inail, Vigorso di Budrio, Bologna, Italy.
² Unit of Advanced Robotics and Human-Centred Technologies, Università Campus Bio-Medico di Roma, Rome, Italy.

Abstract

Introduction: Muscular activation sequences have been shown to be suitable time-domain features for classification of motion gestures. However, their clinical application in myoelectric prosthesis control was never investigated so far. The aim of the paper is to evaluate the robustness of these features extracted from the EMG signal in transient state, on the forearm, for classifying common hand tasks.

Methods: The signal associated to four hand gestures and the rest condition were acquired from ten healthy people and two persons with trans-radial amputation. A feature extraction algorithm allowed for encoding the EMG signals into muscular activation sequences, which were used to train four commonly used classifiers, namely Linear Discriminant Analysis (LDA), Support Vector Machine (SVM), Non-linear Logistic Regression (NLR) and Artificial Neural Network (ANN). The offline performances were assessed with the entire sample of recruited people. The online performances were assessed with the amputee subjects. Moreover, a comparison of the proposed method with approaches based on the signal envelope in the transient state and in the steady state was conducted.

Results: The highest performance were obtained with the NLR classifier. Using the sequences, the offline classification accuracy was higher than 93% for healthy and amputee subjects and always higher than the approach with the signal envelope in transient state. As regards the comparison with the steady state, the performances obtained with the proposed method are slightly lower (<4%), but the classification occurred at least 200 ms earlier. In the online application, the motion completion rate reached up to 85% of the total classification attempts, with a motion selection time that never exceeded 218 ms.

Discussion: Muscular activation sequences are suitable alternatives to the time-domain features commonly used in classification problems belonging to the sole EMG transient state and could be potentially exploited in control strategies of myoelectric prosthesis hands.

Keywords: hand gesture classification; hand prosthesis; muscular activation sequence; onset detection; pattern recognition; transient; upper-limb amputation.

Grants and funding

The author(s) declare financial support was received for the research, authorship, and/or publication of this article. This work was supported by Centro Protesi Inail partly within WiFi Myo-Hand (CUP: E59E19001460005) project, and partly by ReGiveMeFive (CUP: E59E19001460005) project.