Motor Imagery Classification Via Temporal Attention Cues of Graph Embedded EEG Signals

Overview

Journal IEEE J Biomed Health Inform

Specialties Biomedical Engineering
Medical Informatics

Date 2020 Jan 25

PMID 31976916

Citations 20

Authors

Dalin Zhang

Kaixuan Chen

Debao Jian

Lina Yao

Affiliations

Soon will be listed here.

Abstract

Motor imagery classification from EEG signals is essential for motor rehabilitation with a Brain-Computer Interface (BCI). Most current works on this issue require a subject-specific adaptation step before applied to a new user. Thus the research of directly extending a pre-trained model to new users is particularly desired and indispensable. As brain dynamics fluctuate considerably across different subjects, it is challenging to design practical hand-crafted features based on prior knowledge. Regarding this gap, this paper proposes a Graph-based Convolutional Recurrent Attention Model (G-CRAM) to explore EEG features across different subjects for motor imagery classification. A graph structure is first developed to represent the positioning information of EEG nodes. Then a convolutional recurrent attention model learns EEG features from both spatial and temporal dimensions and emphasizes on the most distinguishable temporal periods. We evaluate the proposed approach on two benchmark EEG datasets of motor imagery classification on the subject-independent testing. The results show that the G-CRAM achieves superior performance to state-of-the-art methods regarding recognition accuracy and ROC-AUC. Furthermore, model interpretation studies reveal the learning process of different neural network components and demonstrate that the proposed model can extract detailed features efficiently.

Citing Articles

Adaptive GCN and Bi-GRU-Based Dual Branch for Motor Imagery EEG Decoding.

Wu Y, Cao P, Xu M, Zhang Y, Lian X, Yu C Sensors (Basel). 2025; 25(4).

PMID: 40006375 PMC: 11858896. DOI: 10.3390/s25041147.

3D convolutional neural network based on spatial-spectral feature pictures learning for decoding motor imagery EEG signal.

Li X, Chu Y, Wu X Front Neurorobot. 2024; 18:1485640.

PMID: 39720668 PMC: 11667157. DOI: 10.3389/fnbot.2024.1485640.

Attention model of EEG signals based on reinforcement learning.

Zhang W, Tang X, Wang M Front Hum Neurosci. 2024; 18:1442398.

PMID: 39619679 PMC: 11604591. DOI: 10.3389/fnhum.2024.1442398.

Efficient Multi-View Graph Convolutional Network with Self-Attention for Multi-Class Motor Imagery Decoding.

Tan X, Wang D, Xu M, Chen J, Wu S Bioengineering (Basel). 2024; 11(9).

PMID: 39329668 PMC: 11428916. DOI: 10.3390/bioengineering11090926.

MOVING: A Multi-Modal Dataset of EEG Signals and Virtual Glove Hand Tracking.

Mattei E, Lozzi D, Di Matteo A, Cipriani A, Manes C, Placidi G Sensors (Basel). 2024; 24(16).

PMID: 39204903 PMC: 11359383. DOI: 10.3390/s24165207.