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Exploring directed functional connectivity based on electroencephalography source signals using a

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Exploring directed functional connectivity based on electroencephalography source signals using a global cortex factor-based multivariate autoregressive model
文献类型:期刊
通讯作者:Wu, X (reprint author), Beijing Normal Univ, Coll Informat Sci & Technol, Beijing 100875, Peoples R China.
期刊名称:JOURNAL OF NEUROSCIENCE METHODS影响因子和分区
年:2019
卷:318
页码:6-16
ISSN:0165-0270
关键词:EEG source; Directed functional connectivity; MVAR model; Global cortex factor-based MVAR (GCF-MVAR) model; Weighted PDC
所属部门:心理学系
摘要:Background - Partial directed coherence (PDC) computed from multivariate autoregressive (MVAR) model coefficient is increasingly being used to study directed functional connectivity between brain regions in the frequency domain based on electroencephalography (EEG) source signals. However, directly fitting MVAR model to the high-dimensional source signals is difficult. Besides, although PDC measurement often shows good results for simulated data, it is not clear to what extent the results for re ...More
Background - Partial directed coherence (PDC) computed from multivariate autoregressive (MVAR) model coefficient is increasingly being used to study directed functional connectivity between brain regions in the frequency domain based on electroencephalography (EEG) source signals. However, directly fitting MVAR model to the high-dimensional source signals is difficult. Besides, although PDC measurement often shows good results for simulated data, it is not clear to what extent the results for real data are physiologically plausible. New method: We propose a new method termed global cortex factor-based MVAR (GCF-MVAR) to study directed functional connectivity based on EEG source signals. It avoids directly fitting MVAR model to high-dimensional EEG sources, instead using low-dimensional global cortex factor signals derived from the source signals by principle component analysis (PCA). To validate its physiological efficacy, we weight the PDC with source spectral power (SP) which reflects the true frequency activity in a source region. Comparison with existing method(s): The performance of GCF-MVAR is compared with FMVAR, ROI-MVAR, and MVAR by applying to both simulated and resting-state EEG data. Results: The simulation results show that GCF-MVAR has the lowest estimation error. By using the source SP to weight the PDC, GCF-MVAR improves the physiological interpretation of the source connectivity for both simulated and resting-state EEG data. Conclusions: The new method is proved to outperform than the state-of-the-art methods, and can be feasible not only for resting state studies, but also task-related connectivity and neurological disorder analysis. ...Hide

DOI:10.1016/j.jneumeth.2019.02.016
百度学术:Exploring directed functional connectivity based on electroencephalography source signals using a global cortex factor-based multivariate autoregressive model
语言:外文
人气指数:2
浏览次数:2
基金:general Program of National Natural Science Foundation of ChinaNational Natural Science Foundation of China [61876021, 61571047]
作者其他论文



Improved sparse decomposition based on a smoothed L0 norm using a Laplacian kernel to select features from fMRI data.Zhang, Chuncheng;Song, Sutao;Wen, Xiaotong,等.JOURNAL OF NEUROSCIENCE METHODS.2015,245,15-24.
Fast voxel selection of fMRI data based on Smoothed 10 norm.Zhang, Chuncheng;Wang, Zhengli;Song, Sutao,等.2014.
Breakdown of Sensorimotor Network Communication in Leukoaraiosis.Wu, Xia;Lai, Youzhi;Zhang, Yumei,等.NEURODEGENERATIVE DISEASES.2015,15(6),322-330.
A real-time method to reduce ballistocardiogram artifacts from EEG during fMRI based on optimal basis sets (OBS).Wu, Xia;Wu, Tong;Zhan, Zhichao,等.COMPUTER METHODS AND PROGRAMS IN BIOMEDICINE.2016,127,114-125.
Real-time ballistocardiographic artifact reduction using the k-teager energy operator detector and multi-channel referenced adaptive noise cancelling.Wen, Xiaotong;Kang, Mingxuan;Yao, Li,等.INTERNATIONAL JOURNAL OF IMAGING SYSTEMS AND TECHNOLOGY.2016,26(3),209-215.

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