EEG-GNN: Graph Neural Networks for Classification of Electroencephalogram (EEG) Signals

计算机科学 脑电图 人工智能 联营 模式识别(心理学) 卷积神经网络 可解释性 图形 人工神经网络 机器学习 理论计算机科学 心理学 精神科
作者
Andaç Demir,Toshiaki Koike‐Akino,Ye Wang,Masaki Haruna,Deniz Erdoğmuş
出处
期刊: 卷期号:2021: 1061-1067 被引量:102
标识
DOI:10.1109/embc46164.2021.9630194
摘要

Convolutional neural networks (CNN) have been frequently used to extract subject-invariant features from electroencephalogram (EEG) for classification tasks. This approach holds the underlying assumption that electrodes are equidistant analogous to pixels of an image and hence fails to explore/exploit the complex functional neural connectivity between different electrode sites. We overcome this limitation by tailoring the concepts of convolution and pooling applied to 2D grid-like inputs for the functional network of electrode sites. Furthermore, we develop various graph neural network (GNN) models that project electrodes onto the nodes of a graph, where the node features are represented as EEG channel samples collected over a trial, and nodes can be connected by weighted/unweighted edges according to a flexible policy formulated by a neuroscientist. The empirical evaluations show that our proposed GNN-based framework outperforms standard CNN classifiers across ErrP, and RSVP datasets, as well as allowing neuroscientific interpretability and explainability to deep learning methods tailored to EEG related classification problems. Another practical advantage of our GNN-based framework is that it can be used in EEG channel selection, which is critical for reducing computational cost, and designing portable EEG headsets.
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