Litcius/Paper detail

A practical introduction to EEG Time-Frequency Principal Components Analysis (TF-PCA)

George A. Buzzell, Yanbin Niu, Selin Aviyente, Edward M. Bernat

2022Developmental Cognitive Neuroscience41 citationsDOIOpen Access PDF

Abstract

This EEG methods tutorial provides both a conceptual and practical introduction to a promising data reduction approach for time-frequency representations of EEG data: Time-Frequency Principal Components Analysis (TF-PCA). Briefly, the unique value of TF-PCA is that it provides a data-reduction approach that does not rely on strong a priori constraints regarding the specific timing or frequency boundaries for an effect of interest. Given that the time-frequency characteristics of various neurocognitive process are known to change across development, the TF-PCA approach is thus particularly well suited for the analysis of developmental TF data. This tutorial provides the background knowledge, theory, and practical information needed to allow individuals with basic EEG experience to begin applying the TF-PCA approach to their own data. Crucially, this tutorial article is accompanied by a companion GitHub repository that contains example code, data, and a step-by-step guide of how to perform TF-PCA: https://github.com/NDCLab/tfpca-tutorial. Although this tutorial is framed in terms of the utility of TF-PCA for developmental data, the theory, protocols and code covered in this tutorial article and companion GitHub repository can be applied more broadly across populations of interest.

Topics & Concepts

Principal (computer security)Computer sciencePrincipal component analysisElectroencephalographySource codeA priori and a posterioriNeurocognitiveArtificial intelligenceReduction (mathematics)Pattern recognition (psychology)Data miningCognitionPsychologyProgramming languageGeometryMathematicsPsychiatryPhilosophyNeuroscienceEpistemologyOperating systemEEG and Brain-Computer InterfacesFunctional Brain Connectivity StudiesNeural dynamics and brain function