The pooled scalogram: A wavelet-based approach to detect the co-activation of several muscles in the time-frequency domain

•Wavelet pooled scalogram is introduced to assess coactivation of multiple muscles.•The pooled scalogram characterizes EMG-signal content in time-frequency domain.•Significant invariants are extracted by NMF to assess time-frequency features.•Shared invariants among subjects hint physiological featu...

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Published inBiomedical signal processing and control Vol. 99; p. 106802
Main Authors Borzelli, Daniele, Morano, Martina, Fioretti, Sandro, Di Nardo, Francesco
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.01.2025
Subjects
Continuous wavelet transform
Electromyography
Muscle co-contraction
Muscle coordination
Muscle modules
Spectral properties
Muscle modules
Electromyography
Muscle co-contraction
Muscle coordination
Spectral properties
Continuous wavelet transform
Online AccessGet full text
ISSN1746-8094
DOI10.1016/j.bspc.2024.106802

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Abstract •Wavelet pooled scalogram is introduced to assess coactivation of multiple muscles.•The pooled scalogram characterizes EMG-signal content in time-frequency domain.•Significant invariants are extracted by NMF to assess time-frequency features.•Shared invariants among subjects hint physiological features in frequency domain.•This approach may improve the investigation on motor control and neural diseases. Different approaches based on surface electromyographic signals (EMG) were proposed to understand the interplay among several muscles, most of which were based on the solely EMG amplitude and neglected spectral characteristics. This study introduced an approach that quantitatively characterizes the co-activation of multiple muscles in time-frequency domain, based on the continuous wavelet transform (CWT). The pooled scalogram, defined here as the CWT-based cross-energy localization of multiple EMG signals, quantified the co-activation among several muscles in time-frequency domain. Algorithm performances were tested on 30,000 synthetic EMG signals, with different signal-to-noise ratio. Experimental sEMG were recorded from tibialis anterior, gastrocnemius lateralis, and vastus lateralis during walking of 31 young healthy subjects. Significant invariants were extracted by Non-Negative Matrix Factorization Analysis to determine time-frequency invariants. The proposed CWT approach provided an accurate prediction of co-activation timing in the synthetic signal. Analysis of experimental signals indicated population consistency in time-frequency invariants and showed that muscular co-contraction peak was identified in heel strike and in the Piper frequency band. Synthetic data demonstrated the capability of the pooled scalogram to accurately detect the timings among multiple signals. Experimental analysis suggested that when TA, GL, and VL are co-active over time, they also synchronized in frequency within the Piper band. The pooled scalogram will lead to a better understanding of the control laws underlying the motor coordination, and it could represent a marker of neurological pathologies or a quantitative evaluation of the effects of a rehabilitative process.
AbstractList •Wavelet pooled scalogram is introduced to assess coactivation of multiple muscles.•The pooled scalogram characterizes EMG-signal content in time-frequency domain.•Significant invariants are extracted by NMF to assess time-frequency features.•Shared invariants among subjects hint physiological features in frequency domain.•This approach may improve the investigation on motor control and neural diseases. Different approaches based on surface electromyographic signals (EMG) were proposed to understand the interplay among several muscles, most of which were based on the solely EMG amplitude and neglected spectral characteristics. This study introduced an approach that quantitatively characterizes the co-activation of multiple muscles in time-frequency domain, based on the continuous wavelet transform (CWT). The pooled scalogram, defined here as the CWT-based cross-energy localization of multiple EMG signals, quantified the co-activation among several muscles in time-frequency domain. Algorithm performances were tested on 30,000 synthetic EMG signals, with different signal-to-noise ratio. Experimental sEMG were recorded from tibialis anterior, gastrocnemius lateralis, and vastus lateralis during walking of 31 young healthy subjects. Significant invariants were extracted by Non-Negative Matrix Factorization Analysis to determine time-frequency invariants. The proposed CWT approach provided an accurate prediction of co-activation timing in the synthetic signal. Analysis of experimental signals indicated population consistency in time-frequency invariants and showed that muscular co-contraction peak was identified in heel strike and in the Piper frequency band. Synthetic data demonstrated the capability of the pooled scalogram to accurately detect the timings among multiple signals. Experimental analysis suggested that when TA, GL, and VL are co-active over time, they also synchronized in frequency within the Piper band. The pooled scalogram will lead to a better understanding of the control laws underlying the motor coordination, and it could represent a marker of neurological pathologies or a quantitative evaluation of the effects of a rehabilitative process.
ArticleNumber 106802
Author Morano, Martina
Fioretti, Sandro
Borzelli, Daniele
Di Nardo, Francesco
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Keywords Muscle modules
Electromyography
Muscle co-contraction
Muscle coordination
Spectral properties
Continuous wavelet transform
Language English
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Snippet •Wavelet pooled scalogram is introduced to assess coactivation of multiple muscles.•The pooled scalogram characterizes EMG-signal content in time-frequency...
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StartPage 106802
SubjectTerms Continuous wavelet transform
Electromyography
Muscle co-contraction
Muscle coordination
Muscle modules
Spectral properties
Title The pooled scalogram: A wavelet-based approach to detect the co-activation of several muscles in the time-frequency domain
URI https://dx.doi.org/10.1016/j.bspc.2024.106802
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