THE FINITE-ELEMENT METHOD FOR A REALISTIC HEAD MODEL OF ELECTRICAL BRAIN ACTIVITIES - PRELIMINARY-RESULTS

In order to model the brain's electrical activity realistically, the finite element method has been used to compute the potential distribution due to a current dipole. This approach has the advantage over the boundary element method of being able to consider anisotropies of the different conducting sub-volumes. The forward solution has been evaluated in the particular case of a three-layer concentric sphere isotropic head model of the head where an analytical formula is known. The errors on the dipole position and orientation have been estimated in the inverse problem procedure.