Ahmad, I.; Liu, Z.; Li, L.; Ullah, I.; Wang, X.; Samuel, O.; Li, G.; Tao, Y.; Chen, Y.; Chen, S.

Robust Epileptic Seizure Detection Based on Biomedical Signals Using an Advanced Multi-View Deep Feature Learning Approach

Journal article

Ahmad, I., Liu, Z., Li, L., Ullah, I., Wang, X., Samuel, O., Li, G., Tao, Y., Chen, Y. and Chen, S. 2024. Robust Epileptic Seizure Detection Based on Biomedical Signals Using an Advanced Multi-View Deep Feature Learning Approach. IEEE Journal of Biomedical and Health Informatics. pp. 1-13. https://doi.org/10.1109/JBHI.2024.3396130

Publication dates
Authors	Ahmad, I., Liu, Z., Li, L., Ullah, I., Wang, X., Samuel, O., Li, G., Tao, Y., Chen, Y. and Chen, S.
Abstract	Epilepsy is a neurological disorder characterized by abnormal neuronal discharges that manifest in life-threatening seizures. These are often monitored via EEG signals, a key aspect of biomedical signal processing (BSP). Accurate epileptic seizure (ES) detection significantly depends on the precise identification of key EEG features, which requires a deep understanding of the data’s intrinsic domain. Therefore, this study presents an Advanced Multi-View Deep Feature Learning (AMV-DFL) framework based on machine learning (ML) technology to enhance the detection of relevant EEG signal features for ES. Our method initially applies a fast Fourier transform (FFT) to EEG data for traditional frequency domain feature (TFD-F) extraction and directly incorporates time domain (TD) features from the raw EEG signals, establishing a comprehensive traditional multi-view feature (TMV-F). Deep features are subsequently extracted autonomously from optimal layers of one-dimensional convolutional neural networks (1D CNN), resulting in multi-view deep features (MV-DF) integrating both time and frequency domains. A multiview forest (MV-F) is an interpretable rule-based advanced ML classifier used to construct a robust, generalized classification. Tree-based SHAP explainable artificial intelligence (T-XAI) is incorporated for interpreting and explaining the underlying rules. Experimental results confirm our method’s superiority, surpassing models using TMV-FL and single-view deep features (SV-DF) by 4% and outperforming other state-of-the-art methods by an average of 3% in classification accuracy. The AMV-DFL approach aids clinicians in identifying EEG features indicative of ES, potentially discovering novel biomarkers, and improving diagnostic capabilities in epilepsy management.
Keywords	Machine learning; Explainable AI; Biomedical signal processing; Fast Fourier transform
Year	2024
Journal	IEEE Journal of Biomedical and Health Informatics
Journal citation	pp. 1-13
Publisher	IEEE
ISSN	2168-2194
Digital Object Identifier (DOI)	https://doi.org/10.1109/JBHI.2024.3396130
Web address (URL)	https://ieeexplore.ieee.org/document/10517529
Accepted author manuscript	Accepted Author Manuscript (AAM)_IEEE-JBHI-2.pdf License All rights reserved File Access Level Open
Output status	Published
Online	02 May 2024
Publication process dates
Accepted	May 2024
Deposited	29 Jul 2024

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