Article: Depression diagnosis and management using EEG-based affective brain mapping in real time Journal: International Journal of Biomedical Engineering and Technology (IJBET) 2015 Vol.18 No.2 pp.115 - 138 Abstract: Development of affective Brain-Computer Interfaces (BCIs) via Electroencephalogram (EEG) has emerged as a cynosure of research in early diagnosis and effective management of depression. However, conventional BCIs are still lacking in terms of high computational complexity, less accuracy due to Fourier phase suppression and lack of substantial conclusion for depression diagnosis. An automated, EEG-based depression diagnostic and management tool is proposed to overcome these limitations. Channel event-related potentials, cross-coherence and power spectra plots in MATLAB are quantified and studied as an outcome to map real-time, emotion-specific multichannel EEG data set into distinct emotional states. A fast and stable fourth-order statistics-based independent component analysis is incorporated to reject temporal/spatial artefacts. Increases in frontal alpha (8-13 Hz) and delta (0.5-4 Hz) power/coherence are during depressed and normal/relaxed states, respectively. Devotional music (relaxed state) is found to facilitate depression elimination. Results are found to be statistically significant across all subjects with minimal p-values. Hence, it has been inferred that the proposed model has the potential to aid early and accurate depression diagnostic and management process. Inderscience Publishers - linking academia, business and industry through research

Title: Depression diagnosis and management using EEG-based affective brain mapping in real time

Authors: Rashima Mahajan; Dipali Bansal

Addresses: Department of EEE, Faculty of Engineering & Technology, Manav Rachna International University, Faridabad, Haryana, India ' Electronics & Communication Engineering Department, Faculty of Engineering & Technology, Manav Rachna International University, Faridabad, Haryana, India

Abstract: Development of affective Brain-Computer Interfaces (BCIs) via Electroencephalogram (EEG) has emerged as a cynosure of research in early diagnosis and effective management of depression. However, conventional BCIs are still lacking in terms of high computational complexity, less accuracy due to Fourier phase suppression and lack of substantial conclusion for depression diagnosis. An automated, EEG-based depression diagnostic and management tool is proposed to overcome these limitations. Channel event-related potentials, cross-coherence and power spectra plots in MATLAB are quantified and studied as an outcome to map real-time, emotion-specific multichannel EEG data set into distinct emotional states. A fast and stable fourth-order statistics-based independent component analysis is incorporated to reject temporal/spatial artefacts. Increases in frontal alpha (8-13 Hz) and delta (0.5-4 Hz) power/coherence are during depressed and normal/relaxed states, respectively. Devotional music (relaxed state) is found to facilitate depression elimination. Results are found to be statistically significant across all subjects with minimal p-values. Hence, it has been inferred that the proposed model has the potential to aid early and accurate depression diagnostic and management process.

Keywords: affective brain mapping; BCI; brain-computer interface; depression diagnosis; depression management; early diagnosis; EEG; electroencephalograms; emotions; event-related potential; real time mapping; spectral power; emotional states; devotional music; relaxed state.

DOI: 10.1504/IJBET.2015.070033

International Journal of Biomedical Engineering and Technology, 2015 Vol.18 No.2, pp.115 - 138

Received: 24 Oct 2014
Accepted: 23 Jan 2015
Published online: 25 Jun 2015 *

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Title: Depression diagnosis and management using EEG-based affective brain mapping in real time

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