论文信息 - A physiologically motivated sparse, compact, and smooth (SCS) approach to EEG source localization

A physiologically motivated sparse, compact, and smooth (SCS) approach to EEG source localization

Here, we introduce a novel approach to the EEG inverse problem based on the assumption that principal cortical sources of multi-channel EEG recordings may be assumed to be spatially sparse, compact, and smooth (SCS). To enforce these characteristics of solutions to the EEG inverse problem, we propose a correlation-variance model which factors a cortical source space covariance matrix into the multiplication of a pre-given correlation coefficient matrix and the square root of the diagonal variance matrix learned from the data under a Bayesian learning framework. We tested the SCS method using simulated EEG data with various SNR and applied it to a real ECOG data set. We compare the results of SCS to those of an established SBL algorithm.

Kenneth Kreutz-Delgado | Scott Makeig | Cheng Cao | Zeynep Akalin Acar

[1] M. N. Vrahatisa,et al. A class of gradient unconstrained minimization algorithms with adaptive stepsize , 1999 .

[2] Gregory A. Worrell,et al. Electrocortical source imaging of intracranial EEG data in epilepsy , 2011, 2011 Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[3] David P. Wipf,et al. A unified Bayesian framework for MEG/EEG source imaging , 2009, NeuroImage.

[4] D. Lehmann,et al. Functional imaging with low-resolution brain electromagnetic tomography (LORETA): a review. , 2002, Methods and findings in experimental and clinical pharmacology.

[5] S. Makeig,et al. Imaging human EEG dynamics using independent component analysis , 2006, Neuroscience & Biobehavioral Reviews.

[6] Anders M. Dale,et al. Vector-based spatial–temporal minimum L1-norm solution for MEG , 2006, NeuroImage.

[7] M. N. Vrahatis,et al. A class of gradient unconstrained minimization algorithms with adaptive stepsize - some corrections , 2000 .

[8] Karl J. Friston,et al. Multiple sparse priors for the M/EEG inverse problem , 2008, NeuroImage.

[9] Tzyy-Ping Jung,et al. Independent Component Analysis of Electroencephalographic Data , 1995, NIPS.

[10] Scott Makeig,et al. Neuroelectromagnetic Forward Head Modeling Toolbox , 2010, Journal of Neuroscience Methods.

[11] David P. Wipf,et al. Iterative Reweighted 1 and 2 Methods for Finding Sparse Solutions , 2010, IEEE J. Sel. Top. Signal Process..