MACRO: Multi-Attention Convolutional Recurrent Model for Subject-Independent ERP Detection

Due to the low signal-to-noise ratio, limited training samples, and large inter-subject variabilities in electroencephalogram (EEG) signals, developing a subject-independent braincomputer interface (BCI) system used for new users without any calibration is still challenging. In this letter, we propose a novel Multi-Attention Convolutional Recurrent mOdel (MACRO) for EEG-based event-related potential (ERP) detection in the subjectindependent scenario. Specifically, the convolutional recurrent network is designed to capture the spatial-temporal features, while the multi-attention mechanism is integrated to focus on the most discriminative channels and temporal periods of EEG signals. Comprehensive experiments conducted on a benchmark dataset for RSVP-based BCIs show that our method achieves the best performance compared with the five state-of-the-art baseline methods. This result indicates that our method is able to extract the underlying subject-invariant EEG features and generalize to unseen subjects. Finally, the ablation studies verify the effectiveness of the designed multi-attention mechanism in MACRO for EEG-based ERP detection.