Title :
Multiple dipole modeling and localization from spatio-temporal MEG data
Author :
Mosher, John C. ; Lewis, Paul S. ; Leahy, Richard M.
Author_Institution :
TRW, Redondo Beach, CA, USA
fDate :
6/1/1992 12:00:00 AM
Abstract :
The authors present general descriptive models for spatiotemporal MEG (magnetoencephalogram) data and show the separability of the linear moment parameters and nonlinear location parameters in the MEG problem. A forward model with current dipoles in a spherically symmetric conductor is used as an example: however, other more advanced MEG models, as well as many EEG (electroencephalogram) models, can also be formulated in a similar linear algebra framework. A subspace methodology and computational approach to solving the conventional least-squares problem is presented. A new scanning approach, equivalent to the statistical MUSIC method, is also developed. This subspace method scans three-dimensional space with a one-dipole model, making it computationally feasible to scan the complete head volume.
Keywords :
biomagnetism; brain models; forward model; least-squares problem; linear moment parameters; localization; magnetoencephalogram; multiple dipole modeling; nonlinear location parameters; spherically symmetric conductor; statistical MUSIC method; subspace method; subspace methodology; Biomedical measurements; Image processing; Laboratories; Magnetic field measurement; Multiple signal classification; Neurons; Power engineering and energy; Principal component analysis; SQUIDs; Signal processing; Algorithms; Computer Simulation; Humans; Least-Squares Analysis; Linear Models; Magnetoencephalography; Models, Neurological;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
