A Multigrid Solver in EEG Source Analysis applying the Finite Difference Method
- Abstract
The Algebraic Multigrid method for a discretisation based on cell-centered finite difference is applied to solve the forward problem in EEG source analysis. We found that, depending on the computer platform, the method performs 1.8-5.6 times faster than the successive over relaxation (SOR) method often employed in this context.
- BibTeX
-
@article{id722, author = {Vanrumste, B. and Mohr, M. and Bones, P. J.}, journal = {International Journal of Bioelectromagnetism}, language = {en}, note = {Special Issue on Electrocardiology and Neurophysiology}, number = {2}, pages = {255{\textendash}256}, title = {A Multigrid Solver in EEG Source Analysis applying the Finite Difference Method}, volume = {4}, year = {2002}, }
- EndNote
-
%O Journal Article %A Vanrumste, B. %A Mohr, M. %A Bones, P. J. %J International Journal of Bioelectromagnetism %G en %O Special Issue on Electrocardiology and Neurophysiology %N 2 %P 255–256 %T A Multigrid Solver in EEG Source Analysis applying the Finite Difference Method %V 4 %D 2002