期刊
BIOMEDICAL SIGNAL PROCESSING AND CONTROL
卷 87, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.bspc.2023.105359
关键词
Electroencephalography; Brain-computer interface; Motor imagery; Transformer; Spatio-temporal; Self-attention
This article proposes a transformer-based approach for classification of electroencephalography (EEG) signals in motor imagery (MI), enabling communication in Brain-Computer Interface (BCI) systems. The approach utilizes a self-attention mechanism to extract features in the temporal and spatial domains, improving spatial correlations and classification accuracy. The method has been tested in the BCI Competition IV 2a and 2b benchmarks, outperforming state-of-the-art methods and demonstrating superior stability in subject-dependent and subject-independent strategies.
Motor Imagery (MI) classification with electroencephalography (EEG) is a critical aspect of Brain-Computer Interface (BCI) systems, enabling individuals with mobility limitations to communicate with the outside world. However, the complexity, variability, and low signal-to-noise ratio of EEG data present significant challenges in decoding these signals, particularly in a subject-independent manner. To overcome these challenges, we propose a transformer-based approach that employs a self-attention process to extract features in the temporal and spatial domains. To establish spatial correlations across MI EEG channels, the self-attention module periodically updates each channel by averaging its features across all channels. This weighted averaging improves classification accuracy and removes artifacts generated by manually selecting channels. Furthermore, the temporal self-attention mechanism encodes global sequential information into the features for each sample time step, allowing for the extraction of superior temporal properties in the time domain from MI EEG data. The effectiveness of the proposed strategy has been confirmed through testing against the BCI Competition IV 2a and 2b benchmarks. Overall, our proposed model outperforms state-of-the-art methods and demonstrates greater stability in both subject-dependent and subject-independent strategies.
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