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Data Augmentation for Deep Neural Networks Model in EEG Classification Task: A Review

Chao He, Jialu Liu, Yuesheng Zhu, Wencai Du

2021Frontiers in Human Neuroscience98 citationsDOIOpen Access PDF

Abstract

Classification of electroencephalogram (EEG) is a key approach to measure the rhythmic oscillations of neural activity, which is one of the core technologies of brain-computer interface systems (BCIs). However, extraction of the features from non-linear and non-stationary EEG signals is still a challenging task in current algorithms. With the development of artificial intelligence, various advanced algorithms have been proposed for signal classification in recent years. Among them, deep neural networks (DNNs) have become the most attractive type of method due to their end-to-end structure and powerful ability of automatic feature extraction. However, it is difficult to collect large-scale datasets in practical applications of BCIs, which may lead to overfitting or weak generalizability of the classifier. To address these issues, a promising technique has been proposed to improve the performance of the decoding model based on data augmentation (DA). In this article, we investigate recent studies and development of various DA strategies for EEG classification based on DNNs. The review consists of three parts: what kind of paradigms of EEG-based on BCIs are used, what types of DA methods are adopted to improve the DNN models, and what kind of accuracy can be obtained. Our survey summarizes the current practices and performance outcomes that aim to promote or guide the deployment of DA to EEG classification in future research and development.

Topics & Concepts

Computer scienceOverfittingArtificial intelligenceElectroencephalographyGeneralizability theoryBrain–computer interfaceMachine learningArtificial neural networkClassifier (UML)Deep learningTask (project management)Pattern recognition (psychology)ManagementEconomicsPsychologyStatisticsPsychiatryMathematicsEEG and Brain-Computer InterfacesBlind Source Separation TechniquesNeural dynamics and brain function