Litcius/Paper detail

Transfer learning with data alignment and optimal transport for EEG based motor imagery classification

Chao‐Hsien Chu, Lei Zhu, Aiai Huang, Ping Xu, Nanjiao Ying, Jianhai Zhang

2024Journal of Neural Engineering11 citationsDOIOpen Access PDF

Abstract

Abstract Objective . The non-stationarity of electroencephalogram (EEG) signals and the variability among different subjects present significant challenges in current Brain–Computer Interfaces (BCI) research, which requires a time-consuming specific calibration procedure to address. Transfer Learning (TL) offers a potential solution by leveraging data or models from one or more source domains to facilitate learning in the target domain, so as to address these challenges. Approach . In this paper, a novel Multi-source domain Transfer Learning Fusion (MTLF) framework is proposed to address the calibration problem. Firstly, the method transforms the source domain data with the resting state segment data, in order to decrease the differences between the source domain and the target domain. Subsequently, feature extraction is performed using common spatial pattern. Finally, an improved TL classifier is employed to classify the target samples. Notably, this method does not require the label information of target domain samples, while concurrently reducing the calibration workload. Main results . The proposed MTLF is assessed on Datasets 2a and 2b from the BCI Competition IV. Compared with other algorithms, our method performed relatively the best and achieved mean classification accuracy of 73.69% and 70.83% on Datasets 2a and 2b respectively. Significance. Experimental results demonstrate that the MTLF framework effectively reduces the discrepancy between the source and target domains and acquires better classification performance on two motor imagery datasets.

Topics & Concepts

Computer scienceTransfer of learningMotor imageryArtificial intelligenceBrain–computer interfaceClassifier (UML)Pattern recognition (psychology)CalibrationDomain (mathematical analysis)ElectroencephalographyFeature extractionMachine learningData miningMathematicsPsychiatryStatisticsMathematical analysisPsychologyEEG and Brain-Computer InterfacesNeonatal and fetal brain pathologyBlind Source Separation Techniques