Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4967197 | Journal of Computational Physics | 2017 | 19 Pages |
Abstract
This work presents two new volume integral equations for the Electroencephalography (EEG) forward problem which, differently from the standard integral approaches in the domain, can handle heterogeneities and anisotropies of the head/brain conductivity profiles. The new formulations translate to the quasi-static regime some volume integral equation strategies that have been successfully applied to high frequency electromagnetic scattering problems. This has been obtained by extending, to the volume case, the two classical surface integral formulations used in EEG imaging and by introducing an extra surface equation, in addition to the volume ones, to properly handle boundary conditions. Numerical results corroborate theoretical treatments, showing the competitiveness of our new schemes over existing techniques and qualifying them as a valid alternative to differential equation based methods.
Related Topics
Physical Sciences and Engineering
Computer Science
Computer Science Applications
Authors
Lyes Rahmouni, Rajendra Mitharwal, Francesco P. Andriulli,