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Cross-Dataset Variability Problem in EEG Decoding With Deep Learning

Lichao Xu, Minpeng Xu, Yufeng Ke, Xingwei An, Shuang Liu, Dong Ming

2020Frontiers in Human Neuroscience123 citationsDOIOpen Access PDF

Abstract

Cross-subject variability problems hinder practical usages of Brain-Computer Interfaces. Recently, deep learning has been introduced into the BCI community due to its better generalization and feature representation abilities. However, most studies currently only have validated deep learning models for single datasets, and the generalization ability for other datasets still needs to be further verified. In this paper, we validated deep learning models for eight MI datasets and demonstrated that the cross-dataset variability problem weakened the generalization ability of models. To alleviate the impact of cross-dataset variability, we proposed an online pre-alignment strategy for aligning the EEG distributions of different subjects before training and inference processes. The results of this study show that deep learning models with online pre-alignment strategies could significantly improve the generalization ability across datasets without any additional calibration data.

Topics & Concepts

GeneralizationComputer scienceArtificial intelligenceDeep learningInferenceMachine learningElectroencephalographyRepresentation (politics)Brain–computer interfaceFeature (linguistics)Feature learningDecoding methodsPattern recognition (psychology)MathematicsPsychologyAlgorithmMathematical analysisPoliticsPolitical sciencePsychiatryPhilosophyLawLinguisticsEEG and Brain-Computer InterfacesNeural dynamics and brain functionNeuroscience and Neural Engineering
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