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Applying Dimensionality Reduction Techniques in Source-Space Electroencephalography via Template and Magnetic Resonance Imaging-Derived Head Models to Continuously Decode Hand Trajectories

Nitikorn Srisrisawang, Gernot Müller-Putz

2022Frontiers in Human Neuroscience15 citationsDOIOpen Access PDF

Abstract

source localization is scarcely investigated. In this study, we tried to tackle the problem of collinearity due to the higher number of signals in the source space by two folds: first, we selected signals in predefined regions of interest (ROIs); second, we applied dimensionality reduction techniques to each ROI. The dimensionality reduction techniques were computing the mean (Mean), principal component analysis (PCA), and locality preserving projections (LPP). We also investigated the effect of decoding between utilizing a template head model and a subject-specific head model during the source localization. The results indicated that applying source-space decoding with PCA yielded slightly higher correlations and signal-to-noise (SNR) ratios than the sensor-space approach. We also observed slightly higher correlations and SNRs when applying the subject-specific head model than the template head model. However, the statistical tests revealed no significant differences between the source-space and sensor-space approaches and no significant differences between subject-specific and template head models. The decoder with Mean and PCA utilizes information mainly from precuneus and cuneus to decode the velocity kinematics similarly in the subject-specific and template head models.

Topics & Concepts

Decoding methodsPattern recognition (psychology)Computer sciencePrincipal component analysisDimensionality reductionArtificial intelligenceCollinearityElectroencephalographyCurse of dimensionalitySpeech recognitionComputer visionAlgorithmMathematicsStatisticsPsychologyPsychiatryEEG and Brain-Computer InterfacesFunctional Brain Connectivity StudiesNeural dynamics and brain function