Three-way analysis of spectrospatial electromyography data: classification and interpretation

Classifying multivariate electromyography (EMG) data is an important problem in prosthesis control as well as in neurophysiological studies and diagnosis. With modern high-density EMG sensor technology, it is possible to capture the rich spectrospatial structure of the myoelectric activity. We hypot...

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Bibliographic Details
Published in:PloS one 2015-06, Vol.10 (6), p.e0127231-e0127231
Main Authors: Kauppi, Jukka-Pekka, Hahne, Janne, Müller, Klaus-Robert, Hyvärinen, Aapo
Format: Article
Language:English
Subjects:
Arrays
Artificial intelligence
Brain research
Classification
Computer science
Density
Electrodes
Electromyography
Electromyography - methods
Electronic Data Processing - methods
Engineering
Female
Generalized linear models
Hand
Hand - physiology
Humans
Independent component analysis
Information processing
Learning algorithms
Machine learning
Male
Movement - physiology
Multivariate analysis
Myoelectricity
Neurophysiology
Physiological aspects
Preprocessing
Principal components analysis
Propagation
Prostheses
Regularization
Signal processing
Temporal variations
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Summary:Classifying multivariate electromyography (EMG) data is an important problem in prosthesis control as well as in neurophysiological studies and diagnosis. With modern high-density EMG sensor technology, it is possible to capture the rich spectrospatial structure of the myoelectric activity. We hypothesize that multi-way machine learning methods can efficiently utilize this structure in classification as well as reveal interesting patterns in it. To this end, we investigate the suitability of existing three-way classification methods to EMG-based hand movement classification in spectrospatial domain, as well as extend these methods by sparsification and regularization. We propose to use Fourier-domain independent component analysis as preprocessing to improve classification and interpretability of the results. In high-density EMG experiments on hand movements across 10 subjects, three-way classification yielded higher average performance compared with state-of-the art classification based on temporal features, suggesting that the three-way analysis approach can efficiently utilize detailed spectrospatial information of high-density EMG. Phase and amplitude patterns of features selected by the classifier in finger-movement data were found to be consistent with known physiology. Thus, our approach can accurately resolve hand and finger movements on the basis of detailed spectrospatial information, and at the same time allows for physiological interpretation of the results.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0127231