Single-trial-based temporal principal component analysis on extracting event-related potentials of interest for an individual subject

Temporal principal component analysis (tPCA) has been widely used to extract event-related potentials (ERPs) at group level of multiple subjects ERP data and it assumes that the underlying factor loading is fixed across participants. However, such assumption may fail to work if latency and phase for...

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Veröffentlicht in:Journal of neuroscience methods Jg. 385; S. 109768
Hauptverfasser: Zhang, Guanghui, Li, Xueyan, Lu, Yingzhi, Tiihonen, Timo, Chang, Zheng, Cong, Fengyu
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Netherlands Elsevier B.V 01.02.2023
Schlagworte:
Back-projection
Electroencephalography - methods
Event-related potentials
Evoked Potentials
Humans
Individual subject
Principal Component Analysis
Single-trial analysis
Individual subject
Event-related potentials
Back-projection
Single-trial analysis
Principal component analysis
ISSN:0165-0270, 1872-678X, 1872-678X
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Abstract Temporal principal component analysis (tPCA) has been widely used to extract event-related potentials (ERPs) at group level of multiple subjects ERP data and it assumes that the underlying factor loading is fixed across participants. However, such assumption may fail to work if latency and phase for one ERP vary considerably across participants. Furthermore, effect of number of trials on tPCA decomposition has not been systematically examined as well, especially for within-subject PCA. We reanalyzed a real ERP data of an emotional experiment using tPCA to extract N2 and P2 from single-trial EEG of an individual. We also explored influence of the number of trials (consecutively increased from 10 to 42 trials) on PCA decomposition by comparing temporal correlation, the statistical result, Cronbach’s alpha, spatial correlation of both N2 and P2 for the proposed method with the conventional time-domain analysis, trial-averaged group PCA, and single-trial-based group PCA. The results of the proposed method can enhance spatial and temporal consistency. We could obtain stable N2 with few trials (about 20) for the proposed method, but, for P2, approximately 30 trials were needed for all methods. About 30 trials for N2 were required and the reconstructed P2 and N2 were poor correlated across participants for the other three methods. The proposed approach may efficiently capture variability of one ERP from an individual that cannot be extracted by group PCA analysis.
AbstractList Temporal principal component analysis (tPCA) has been widely used to extract event-related potentials (ERPs) at group level of multiple subjects ERP data and it assumes that the underlying factor loading is fixed across participants. However, such assumption may fail to work if latency and phase for one ERP vary considerably across participants. Furthermore, effect of number of trials on tPCA decomposition has not been systematically examined as well, especially for within-subject PCA.BACKGROUNDTemporal principal component analysis (tPCA) has been widely used to extract event-related potentials (ERPs) at group level of multiple subjects ERP data and it assumes that the underlying factor loading is fixed across participants. However, such assumption may fail to work if latency and phase for one ERP vary considerably across participants. Furthermore, effect of number of trials on tPCA decomposition has not been systematically examined as well, especially for within-subject PCA.We reanalyzed a real ERP data of an emotional experiment using tPCA to extract N2 and P2 from single-trial EEG of an individual. We also explored influence of the number of trials (consecutively increased from 10 to 42 trials) on PCA decomposition by comparing temporal correlation, the statistical result, Cronbach's alpha, spatial correlation of both N2 and P2 for the proposed method with the conventional time-domain analysis, trial-averaged group PCA, and single-trial-based group PCA.NEW METHODWe reanalyzed a real ERP data of an emotional experiment using tPCA to extract N2 and P2 from single-trial EEG of an individual. We also explored influence of the number of trials (consecutively increased from 10 to 42 trials) on PCA decomposition by comparing temporal correlation, the statistical result, Cronbach's alpha, spatial correlation of both N2 and P2 for the proposed method with the conventional time-domain analysis, trial-averaged group PCA, and single-trial-based group PCA.The results of the proposed method can enhance spatial and temporal consistency. We could obtain stable N2 with few trials (about 20) for the proposed method, but, for P2, approximately 30 trials were needed for all methods.RESULTSThe results of the proposed method can enhance spatial and temporal consistency. We could obtain stable N2 with few trials (about 20) for the proposed method, but, for P2, approximately 30 trials were needed for all methods.About 30 trials for N2 were required and the reconstructed P2 and N2 were poor correlated across participants for the other three methods.COMPARISON WITH EXISTING METHOD(S)About 30 trials for N2 were required and the reconstructed P2 and N2 were poor correlated across participants for the other three methods.The proposed approach may efficiently capture variability of one ERP from an individual that cannot be extracted by group PCA analysis.CONCLUSIONThe proposed approach may efficiently capture variability of one ERP from an individual that cannot be extracted by group PCA analysis.
Temporal principal component analysis (tPCA) has been widely used to extract event-related potentials (ERPs) at group level of multiple subjects ERP data and it assumes that the underlying factor loading is fixed across participants. However, such assumption may fail to work if latency and phase for one ERP vary considerably across participants. Furthermore, effect of number of trials on tPCA decomposition has not been systematically examined as well, especially for within-subject PCA. We reanalyzed a real ERP data of an emotional experiment using tPCA to extract N2 and P2 from single-trial EEG of an individual. We also explored influence of the number of trials (consecutively increased from 10 to 42 trials) on PCA decomposition by comparing temporal correlation, the statistical result, Cronbach’s alpha, spatial correlation of both N2 and P2 for the proposed method with the conventional time-domain analysis, trial-averaged group PCA, and single-trial-based group PCA. The results of the proposed method can enhance spatial and temporal consistency. We could obtain stable N2 with few trials (about 20) for the proposed method, but, for P2, approximately 30 trials were needed for all methods. About 30 trials for N2 were required and the reconstructed P2 and N2 were poor correlated across participants for the other three methods. The proposed approach may efficiently capture variability of one ERP from an individual that cannot be extracted by group PCA analysis.
ArticleNumber 109768
Author Lu, Yingzhi
Zhang, Guanghui
Li, Xueyan
Tiihonen, Timo
Chang, Zheng
Cong, Fengyu
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  surname: Zhang
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  email: zhang.guanghui@foxmail.com
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  givenname: Xueyan
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  givenname: Yingzhi
  surname: Lu
  fullname: Lu, Yingzhi
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  givenname: Timo
  surname: Tiihonen
  fullname: Tiihonen, Timo
  organization: Faculty of Information Technology, University of Jyväskylä, Jyväskylä, 40014, Finland
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  givenname: Zheng
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  email: cong@dlut.edu.cn
  organization: School of Biomedical Engineering, Faculty of Electronic Information and Electrical Engineering, Dalian University of Technology, Dalian, 116024, China
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Keywords Individual subject
Event-related potentials
Back-projection
Single-trial analysis
Principal component analysis
Language English
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Snippet Temporal principal component analysis (tPCA) has been widely used to extract event-related potentials (ERPs) at group level of multiple subjects ERP data and...
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SubjectTerms Back-projection
Electroencephalography - methods
Event-related potentials
Evoked Potentials
Humans
Individual subject
Principal Component Analysis
Single-trial analysis
Title Single-trial-based temporal principal component analysis on extracting event-related potentials of interest for an individual subject
URI https://dx.doi.org/10.1016/j.jneumeth.2022.109768
https://www.ncbi.nlm.nih.gov/pubmed/36529386
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