Article (Scientific journals)
Systematic regularization of linear inverse solutions of the EEG source localization problem
Phillips, Christophe; Rugg, Michael D; Friston, Karl J
2002In NeuroImage, 17 (1), p. 287-301
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Keywords :
EEG; Source localization; Distributed linear solution; Noise regularization; Expectation-maximization procedure; Restricted maximum likelihood solution
Abstract :
[en] Distributed linear solutions of the EEG source localization problem are used routinely. Here we describe an approach based on the weighted minimum norm method that imposes constraints using anatomical and physiological information derived from other imaging modalities to regularize the solution. In this approach the hyperparameters controlling the degree of regularization are estimated using restricted maximum likelihood (ReML). EEG data are always contaminated by noise, e.g., exogenous noise and background brain activity. The conditional expectation of the source distribution, given the data, is attained by carefully balancing the minimization of the residuals induced by noise and the improbability of the estimates as determined by their priors. This balance is specified by hyperparameters that control the relative importance of fitting and conforming to prior constraints. Here we introduce a systematic approach to this regularization problem, in the context of a linear observation model we have described previously. In this model, basis functions are extracted to reduce the solution space a priori in the spatial and temporal domains. The basis sets are motivated by knowledge of the evoked EEG response and information theory. In this paper we focus on an iterative "expectation-maximization" procedure to jointly estimate the conditional expectation of the source distribution and the ReML hyperparameters on which this solution rests. We used simulated data mixed with real EEG noise to explore the behavior of the approach with various source locations, priors, and noise levels. The results enabled us to conclude: M Solutions in the space of informed basis functions have a high face and construct validity, in relation to conventional analyses. (ii) The hyperparameters controlling the degree of regularization vary largely with source geometry and noise. The second conclusion speaks to the usefulness of using adaptative ReML hyperparameter estimates. (C) 2002 Elsevier Science (USA).
Disciplines :
Neurosciences & behavior
Author, co-author :
Phillips, Christophe  ;  Université de Liège - ULiège > Centre de recherches du cyclotron
Rugg, Michael D
Friston, Karl J
Language :
English
Title :
Systematic regularization of linear inverse solutions of the EEG source localization problem
Publication date :
September 2002
Journal title :
NeuroImage
ISSN :
1053-8119
eISSN :
1095-9572
Publisher :
Elsevier Science, San Diego, United States - California
Volume :
17
Issue :
1
Pages :
287-301
Peer reviewed :
Peer Reviewed verified by ORBi
Available on ORBi :
since 27 November 2008

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