A Multivariate Approach for Patient-Specific EEG Seizure Detection Using Empirical Wavelet Transform

Objective: This paper investigates the multivariate oscillatory nature of electroencephalogram (EEG) signals in adaptive frequency scales for epileptic seizure detection. Methods: The empirical wavelet transform (EWT) has been explored for the multivariate signals in order to determine the joint ins...

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Bibliographic Details
Published in:IEEE transactions on biomedical engineering 2017-09, Vol.64 (9), p.2003-2015
Main Authors: Bhattacharyya, Abhijit, Pachori, Ram Bilas
Format: Article
Language:English
Subjects:
Algorithms
Amplitudes
Channel selection
Children
classifiers
Computer Simulation
Convulsions & seizures
Data bases
Data Interpretation, Statistical
Diagnosis, Computer-Assisted - methods
EEG
Electroencephalography
Electroencephalography - methods
Empirical analysis
empirical wavelet transform (EWT)
Epilepsy
Feature extraction
feature processing
Humans
Models, Statistical
Multivariate Analysis
multivariate electroencephalogram (EEG) signal
Pattern Recognition, Automated - methods
Scalp
Seizing
Seizures - diagnosis
Signal processing
Time-frequency analysis
Wavelet Analysis
Wavelet transforms
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Summary:Objective: This paper investigates the multivariate oscillatory nature of electroencephalogram (EEG) signals in adaptive frequency scales for epileptic seizure detection. Methods: The empirical wavelet transform (EWT) has been explored for the multivariate signals in order to determine the joint instantaneous amplitudes and frequencies in signal adaptive frequency scales. The proposed multivariate extension of EWT has been studied on multivariate multicomponent synthetic signal, as well as on multivariate EEG signals of Children's Hospital Boston-Massachusetts Institute of Technology (CHB-MIT) scalp EEG database. In a moving-window-based analysis, 2-s-duration multivariate EEG signal epochs containing five automatically selected channels have been decomposed and three features have been extracted from each 1-s part of the 2-s-duration joint instantaneous amplitudes of multivariate EEG signals. The extracted features from each oscillatory level have been processed using a proposed feature processing step and joint features have been computed in order to achieve better discrimination of seizure and seizure-free EEG signal epochs. Results: The proposed detection method has been evaluated over 177 h of EEG records using six classifiers. We have achieved average sensitivity, specificity, and accuracy values as 97.91%, 99.57%, and 99.41%, respectively, using tenfold cross-validation method, which are higher than the compared state of art methods studied on this database. Conclusion: Efficient detection of epileptic seizure is achieved when seizure events appear for long duration in hours long EEG recordings. Significance: The proposed method develops time-frequency plane for multivariate signals and builds patient-specific models for EEG seizure detection.
ISSN:0018-9294
1558-2531
DOI:10.1109/TBME.2017.2650259