Automated detection and screening of depression using continuous wavelet transform with electroencephalogram signals
Article
Raghavendra, U., Gudigar, Anjan, Chakole, Yashas, Kasula, Praneet, Subha, D. P., Kadri, Nahrizul Adib, Ciaccio, Edward J. and Acharya, U. Rajendra. 2023. "Automated detection and screening of depression using continuous wavelet transform with electroencephalogram signals." Expert Systems: the journal of knowledge engineering. 40 (4). https://doi.org/10.1111/exsy.12803
Article Title | Automated detection and screening of depression using continuous wavelet transform with electroencephalogram signals |
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ERA Journal ID | 17851 |
Article Category | Article |
Authors | Raghavendra, U., Gudigar, Anjan, Chakole, Yashas, Kasula, Praneet, Subha, D. P., Kadri, Nahrizul Adib, Ciaccio, Edward J. and Acharya, U. Rajendra |
Journal Title | Expert Systems: the journal of knowledge engineering |
Journal Citation | 40 (4) |
Article Number | e12803 |
Number of Pages | 20 |
Year | 2023 |
Publisher | John Wiley & Sons |
Place of Publication | United Kingdom |
ISSN | 0266-4720 |
1468-0394 | |
Digital Object Identifier (DOI) | https://doi.org/10.1111/exsy.12803 |
Web Address (URL) | https://onlinelibrary.wiley.com/doi/10.1111/exsy.12803 |
Abstract | Nearly 264 million people around the globe currently suffer from clinical depression, according to the World Health Organization. Although there are diagnostic techniques and treatments presently used by professionals, they are not always helpful. Herein, we suggest the use of advanced technological methods to diagnose depressed patients correctly. A machine learning approach is presented, which uses the electroencephalogram for diagnostics. The model extracts multiple features by applying a continuous wavelet transform (CWT) for each recording. These recordings are employed to train and test the model, with data gathered from 15 depressed and 15 normal patients. After the features are extracted from these recordings, it is organized into matrix form. The features are dimensionally reduced using kernel-principal component analysis and principal component analysis techniques, ranked using Student's t-test, and then labelled as normal or depressed with various classifiers. Accuracies of 99.33% and 99.13% were achieved for the right and left hemispheres of the brain, respectively, and 99.26% for the combined hemispheres of the brain. As compared to the discrete and empirical wavelet transform feature extraction methods, the CWT attained the best results. A depression severity index was also developed, using two features for discriminating the classes: normal versus depressed. |
Keywords | CAD; depression; principal component analysis; support vector machines |
ANZSRC Field of Research 2020 | 400306. Computational physiology |
Public Notes | Files associated with this item cannot be displayed due to copyright restrictions. |
Byline Affiliations | Manipal Academy of Higher Education, India |
National Institute of Technology, India | |
University of Malaya, Malaysia | |
Columbia University Irving Medical Center, United States | |
Ngee Ann Polytechnic, Singapore | |
Asia University, Taiwan | |
Kumamoto University, Japan |
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