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Simultaneous EEG and fMRIRecording, Analysis, and Application$
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Markus Ullsperger and Stefan Debener

Print publication date: 2010

Print ISBN-13: 9780195372731

Published to Oxford Scholarship Online: May 2010

DOI: 10.1093/acprof:oso/9780195372731.001.0001

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Using ICA for the Analysis of Multi-Channel EEG Data

Using ICA for the Analysis of Multi-Channel EEG Data

Chapter:
(p.121) 3.1 Using ICA for the Analysis of Multi-Channel EEG Data
Source:
Simultaneous EEG and fMRI
Author(s):

Stefan Debener

Jeremy Thorne

Till R. Schneider

Filipa Campos Viola

Publisher:
Oxford University Press
DOI:10.1093/acprof:oso/9780195372731.003.0008

Independent component analysis (ICA) is a linear decomposition technique that aims to reveal the underlying statistical sources of mixed signals. The EEG signal consists of a mixture of various brain and non-brain contributions. Accordingly, a valid and powerful unmixing tool promises a better, more accessible representation of the statistical sources contributing to the mixed recorded signal. ICA, being potentially such a tool, may help in the detection of signal sources that cannot be identified on the raw data level alone using other, more conventional techniques. The application of ICA to EEG signals has become popular, as it provides two key features: it is a powerful way to remove artifacts from EEG data, and it helps to disentangle otherwise mixed brain signals. This chapter is concerned with evaluating and optimizing EEG decompositions by means of ICA. First, it discusses typical ICA results with reference to artifact- and brain-related components. Then, it elaborates on different EEG pre-processing steps, considered in light of the statistical assumptions underlying ICA. As such, the motivation for the chapter is to provide some practical guidelines for those researchers who wish to successfully decompose multi-channel EEG recordings.

Keywords:   EEG data, independent component analysis, ICA, artifacts, unmixing, EEG-informed fMRI analysis

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