期刊
JOURNAL OF NEUROSCIENCE METHODS
卷 250, 期 -, 页码 7-21出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.jneumeth.2014.10.009
关键词
ERP; Latency variability; ERP decomposition method; Single trial analysis; ERP reconstruction; Residue iteration decomposition
资金
- Hong Kong Baptist University (HKBU) Strategic Development Fund
- HKBU Faculty Research Grant [FRG2/13-14/022]
- Hong Kong Research Grant Council (RGC) Germany-Hong Kong Joint Research Scheme [G-HK012/12]
- National Natural Science Foundation of China [11275027]
- Germany-Hong Kong Joint Research Scheme [PPP 56062391]
- RGC, University Grant Committee of the HKSAR
- HKBU
Background: Conventionally, event-related brain potentials (ERPs) are obtained by averaging a number of single trials. This can be problematic due to trial-to-trial latency variability. Residue iteration decomposition (RIDE) was developed to decompose ERPs into component clusters with different latency variability and to re-synchronize the separated components into a reconstructed ERP. New method: RIDE has been continuously upgraded and now converges to a robust version. We describe the principles of RIDE and detailed algorithms of the functional modules of a toolbox. We give recommendations and provide caveats for using RIDE from both methodological and psychological perspectives. Results: RIDE was applied to several data samples to demonstrate its ability to decompose and reconstruct latency-variable components of ERPs and to retrieve single trial variability information. Different functionalities of RIDE were shown in appropriate examples. Comparison with existing methods: RIDE employs several modules to achieve a robust decomposition of ERP. As main innovations RIDE (1) is able to extract components based on the combination of known event markers and estimated latencies, (2) prevents distortions much more effectively than previous methods based on least-square algorithms, and (3) allows time window confinements to target relevant components associated with sub-processes of interest. Conclusions: RIDE is a convenient method that decomposes ERPs and provides single trial analysis, yielding rich information about sub-components, and that reconstructs ERPs, more closely reflecting the combined activity of single trial ERPs. The outcomes of RIDE provide new dimensions to study brain behavior relationships based on EEG data. (C) 2014 Elsevier B.V. All rights reserved.
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