Review of electromyography onset detection methods for real-time control of robotic exoskeletons

Author:

Carvalho Camila R.ORCID,Fernández J. Marvin,del-Ama Antonio J.ORCID,Oliveira Barroso FilipeORCID,Moreno Juan C.ORCID

Abstract

Abstract Background Electromyography (EMG) is a classical technique used to record electrical activity associated with muscle contraction and is widely applied in Biomechanics, Biomedical Engineering, Neuroscience and Rehabilitation Robotics. Determining muscle activation onset timing, which can be used to infer movement intention and trigger prostheses and robotic exoskeletons, is still a big challenge. The main goal of this paper was to perform a review of the state-of-the-art of EMG onset detection methods. Moreover, we compared the performance of the most commonly used methods on experimental EMG data. Methods A total of 156 papers published until March 2022 were included in the review. The papers were analyzed in terms of application domain, pre-processing method and EMG onset detection method. The three most commonly used methods [Single (ST), Double (DT) and Adaptive Threshold (AT)] were applied offline on experimental intramuscular and surface EMG signals obtained during contractions of ankle and knee joint muscles. Results Threshold-based methods are still the most commonly used to detect EMG onset. Compared to ST and AT, DT required more processing time and, therefore, increased onset timing detection, when applied on experimental data. The accuracy of these three methods was high (maximum error detection rate of 7.3%), demonstrating their ability to automatically detect the onset of muscle activity. Recently, other studies have tested different methods (especially Machine Learning based) to determine muscle activation onset offline, reporting promising results. Conclusions This study organized and classified the existing EMG onset detection methods to create consensus towards a possible standardized method for EMG onset detection, which would also allow more reproducibility across studies. The three most commonly used methods (ST, DT and AT) proved to be accurate, while ST and AT were faster in terms of EMG onset detection time, especially when applied on intramuscular EMG data. These are important features towards movement intention identification, especially in real-time applications. Machine Learning methods have received increased attention as an alternative to detect muscle activation onset. However, although several methods have shown their capability offline, more research is required to address their full potential towards real-time applications, namely to infer movement intention.

Publisher

Springer Science and Business Media LLC

Subject

Health Informatics,Rehabilitation

Reference175 articles.

1. Fukuda O, Tsuji T, Kaneko M, Otsuka A. A human-assisting manipulator teleoperated by EMG signals and arm motions. IEEE Trans Robot Autom. 2003;19(2):210–22.

2. Micera S, Vannozzi G. Improving detection of muscle activation intervals. IEEE Eng Med Biol Mag. 2001;20(6):38–46.

3. Kirchner EA, Tabie M, Seeland A. Multimodal movement prediction—towards an individual assistance of patients. PLoS ONE. 2014;9(1): e85060.

4. Cavallaro EE, Rosen J, Perry JC, Burns S. Real-time myoprocessors for a neural controlled powered exoskeleton arm. IEEE Trans Biomed Eng. 2006;53(11):2387–96.

5. Benitez LMV, Will N, Tabie M, Schmidt S, Kirchner E, Albiez J. An EMG-based Assistive Orthosis for Upper Limb Rehabilitation. Proceedings of the International Conference on Biomedical Electronics and Devices (MHGInterf-2013). 2013;p. 323–328.

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