Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities
Author | Boashash, Boualem |
Author | Boubchir, Larbi |
Author | Azemi, Ghasem |
Available date | 2012-03-21T05:46:01Z |
Publication Date | 2011-12 |
Publication Name | Signal Processing and Information Technology (ISSPIT), 2011 IEEE International Symposium |
Citation | Boashash, B.; Boubchir, L.; Azemi, G., "Time-frequency signal and image processing of non-stationary signals with application to the classification of newborn EEG abnormalities," Signal Processing and Information Technology (ISSPIT), 2011 IEEE International Symposium on , vol., no., pp.120,129, 14-17 Dec. 2011 |
ISBN | 978-1-4673-0752-9 |
Description | This paper demonstrates that it is possible to improve the classification of EEG non-stationary signals by using new T-F features based on image processing techniques. (Additional details can be found in the comprehensive book on Time-Frequency Signal Analysis and Processing (see http://www.elsevier.com/locate/isbn/0080443354). In addition, the most recent upgrade of the original software package that calculates Time-Frequency Distributions and Instantaneous Frequency estimators can be downloaded from the web site: www.time-frequency.net. This was the first software developed in the field, and it was first released publicly in 1987 at the 1st ISSPA conference held in Brisbane, Australia, and then continuously updated). |
Abstract | This paper presents an introduction to time-frequency (T-F) methods in signal processing, and a novel approach for EEG abnormalities detection and classification based on a combination of signal related features and image related features. These features which characterize the non-stationary nature and the multi-component characteristic of EEG signals, are extracted from the T-F representation of the signals. The signal related features are derived from the T-F representation of EEG signals and include the instantaneous frequency, singular value decomposition, and energy based features. The image related features are extracted from the T-F representation considered as an image, using T-F image processing techniques. These combined signal and image features allow to extract more information from a signal. The results obtained on newborn and adult EEG data, show that the image related features improve the performance of the EEG seizure detection in classification systems based on multi-SVM classifier. |
Language | en |
Publisher | IEEE |
Subject | EEG Classification EEG Time-Frequency Analysis Instantaneous Frequency Newborn EEG Seizure Time-Frequency Features Time-Frequency Image Processing time-frequency analysis time-frequency images time-frequency distributions time-frequency detection time-frequency classification multicomponent EEG multichannel EEG Quadratic TFDs MBD Modified B distribution IF model fitting IF classification time-frequency matched filter EEG abnormality |
Type | Conference |
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Technology Innovation and Engineering Education Unit [63 items ]