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Indexed by:期刊论文

Date of Publication:2014-10-30

Journal:JOURNAL OF NEUROSCIENCE METHODS

Included Journals:SCIE、PubMed、Scopus

Volume:236

Page Number:76-85

ISSN No.:0165-0270

Key Words:Event-related potentials; Independent component analysis; Linear transform model; Mapping coefficient

Abstract:Background: It is well-known that data of event-related potentials (ERPs) conform to the linear transform model (LTM). For group-level ERP data processing using principal/independent component analysis (PCA/ICA), ERP data of different experimental conditions and different participants are often concatenated. It is theoretically assumed that different experimental conditions and different participants possess the same LTM. However, how to validate the assumption has been seldom reported in terms of signal processing methods.
   New method: When ICA decomposition is globally optimized for ERP data of one stimulus, we gain the ratio between two coefficients mapping a source in brain to two points along the scalp. Based on such a ratio, we defined a relative mapping coefficient (RMC). If RMCs between two conditions for an ERP are not significantly different in practice, mapping coefficients of this ERP between the two conditions are statistically identical.
   Results: We examined whether the same LTM of ERP data could be applied for two different stimulus types of fearful and happy facial expressions. They were used in an ignore oddball paradigm in adult human participants. We found no significant difference in LTMs (based on ICASSO) of N170 responses to the fearful and the happy faces in terms of RMCs of N170.
   Comparison with existing method(s): We found no methods for straightforward comparison.
   Conclusions: The proposed RMC in light of ICA decomposition is an effective approach for validating the similarity of LTMs of ERPs between experimental conditions. This is very fundamental to apply group-level PCA/ICA to process ERP data. (C) 2014 Elsevier B.V. All rights reserved.