Identification of normal and depression EEG signals in variational mode decomposition domain

• Published in: Health information science and systems Vol. 10; no. 1; p. 24
• Main Authors: Akbari, Hesam, Sadiq, Muhammad Tariq, Siuly, Siuly, Li, Yan, Wen, Paul
• Format: Journal Article
• Language: English
• Published: Cham Springer International Publishing 01.09.2022; BioMed Central Ltd; Springer Nature B.V
• Subjects: Bioinformatics; Care and treatment; Classification; Computational Biology/Bioinformatics; Computer Science; Decomposition; Depression, Mental; Electroencephalography; Feature extraction; Health Informatics; Information Systems and Communication Service; Neural networks; Notch filters; Depression detection; Depression diagnostic index; Variational mode decomposition; Electroencephalogram; Classification
• ISSN: 2047-2501; 2047-2501
• DOI: 10.1007/s13755-022-00187-7

Early detection of depression is critical in assisting patients in receiving the best therapy possible to avoid negative repercussions. Depression detection using electroencephalogram (EEG) signals is a simple, low-cost, convenient, and accurate approach. This paper proposes a six-stage novel method for detecting depression using EEG signals. First, EEG signals are recorded from 44 subjects, with 22 subjects being normal and 22 subjects being depressed. Second, a simple notch filter with EEG signals differencing approach is employed for effective preprocessing. Third, the variational mode decomposition (VMD) approach is implemented for nonlinear and non-stationary EEG signals analysis, resulting in many modes. Fourth, mutual information-based novel modes selection criterion is proposed to select the most informative modes. In the fifth step, a combination of linear and nonlinear features are extracted from selected modes and at last, classification is performed with neural networks. In this study, a novel single feature is also proposed, which is made using Log energy, norm entropies and fluctuation index, which delivers 100% classification accuracy, sensitivity and specificity. By using these features, a novel depression diagnostic index is also proposed. This integrated index would assist in quicker and more objective identification of normal and depression EEG signals. The proposed computerized framework and the DDI can help health workers, large enterprises, and product developers build a real-time system.