A regularized matrix factorization approach to induce structured sparse-low-rank solutions in the EEG inverse problem

We consider the estimation of the Brain Electrical Sources (BES) matrix from noisy electroencephalographic (EEG) measurements, commonly named as the EEG inverse problem. We propose a new method to induce neurophysiological meaningful solutions, which takes into account the smoothness, structured spa...

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Bibliographic Details
Published in:EURASIP journal on advances in signal processing 2014-06, Vol.2014 (1), p.1-13, Article 97
Main Authors: Montoya-Martínez, Jair, Artés-Rodríguez, Antonio, Pontil, Massimiliano, Hansen, Lars Kai
Format: Article
Language:English
Subjects:
Brain
Coding
Convergence
Electroencephalography
Engineering
Factorization
Inverse problems
Norms
Optimization
Quantum Information Technology
Signal,Image and Speech Processing
Spintronics
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Summary:We consider the estimation of the Brain Electrical Sources (BES) matrix from noisy electroencephalographic (EEG) measurements, commonly named as the EEG inverse problem. We propose a new method to induce neurophysiological meaningful solutions, which takes into account the smoothness, structured sparsity, and low rank of the BES matrix. The method is based on the factorization of the BES matrix as a product of a sparse coding matrix and a dense latent source matrix. The structured sparse-low-rank structure is enforced by minimizing a regularized functional that includes the ℓ 21 -norm of the coding matrix and the squared Frobenius norm of the latent source matrix. We develop an alternating optimization algorithm to solve the resulting nonsmooth-nonconvex minimization problem. We analyze the convergence of the optimization procedure, and we compare, under different synthetic scenarios, the performance of our method with respect to the Group Lasso and Trace Norm regularizers when they are applied directly to the target matrix.
ISSN:1687-6180
1687-6172
1687-6180
DOI:10.1186/1687-6180-2014-97