A Multi-Branch Convolutional Neural Network with Squeeze-and-Excitation Attention Blocks for EEG-Based Motor Imagery Signals Classification

Electroencephalography-based motor imagery (EEG-MI) classification is a critical component of the brain-computer interface (BCI), which enables people with physical limitations to communicate with the outside world via assistive technology. Regrettably, EEG decoding is challenging because of the com...

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Bibliographic Details
Published in:Diagnostics (Basel) 2022-04, Vol.12 (4), p.995
Main Authors: Altuwaijri, Ghadir Ali, Muhammad, Ghulam, Altaheri, Hamdi, Alsulaiman, Mansour
Format: Article
Language:English
Subjects:
Accuracy
attention network
Brain research
brain-computer interfaces
Classification
convolutional neural networks
Deep learning
Electroencephalography
motor imagery
Neural networks
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Summary:Electroencephalography-based motor imagery (EEG-MI) classification is a critical component of the brain-computer interface (BCI), which enables people with physical limitations to communicate with the outside world via assistive technology. Regrettably, EEG decoding is challenging because of the complexity, dynamic nature, and low signal-to-noise ratio of the EEG signal. Developing an end-to-end architecture capable of correctly extracting EEG data's high-level features remains a difficulty. This study introduces a new model for decoding MI known as a Multi-Branch EEGNet with squeeze-and-excitation blocks (MBEEGSE). By clearly specifying channel interdependencies, a multi-branch CNN model with attention blocks is employed to adaptively change channel-wise feature responses. When compared to existing state-of-the-art EEG motor imagery classification models, the suggested model achieves good accuracy (82.87%) with reduced parameters in the BCI-IV2a motor imagery dataset and (96.15%) in the high gamma dataset.
ISSN:2075-4418
2075-4418
DOI:10.3390/diagnostics12040995