Electro-magneto-encephalography for the three-shell model : a single dipole in ellipsoidal geometry
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Publication:2912307
DOI10.1002/mma.2508zbMath1250.92022OpenAlexW1977445927MaRDI QIDQ2912307
Athanassios S. Fokas, George Dassios
Publication date: 14 September 2012
Published in: Mathematical Methods in the Applied Sciences (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1002/mma.2508
Biological applications of optics and electromagnetic theory (78A70) Biomedical imaging and signal processing (92C55) PDEs in connection with biology, chemistry and other natural sciences (35Q92)
Related Items (5)
On the geometric sensitivity of the EEG inversion algorithm ⋮ Magnetoencephalography inverse problem in the spheroid geometry ⋮ On the geometric sensitivity of the MEG inversion algorithm ⋮ Electro-magnetoencephalography for a spherical multiple-shell model: novel integral operators with singular-value decompositions ⋮ Localizing brain activity from multiple distinct sources via EEG
Cites Work
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- The exterior magnetic field for the multilayer ellipsoidal model of the brain
- Electro-magneto-encephalography for a three-shell model: dipoles and beyond for the spherical geometry
- The unique determination of neuronal currents in the brain via magnetoencephalography
- Magnetoencephalography in ellipsoidal geometry
- Inversion method for magnetoencephalography
- Electro-magneto-encephalography for the three-shell model: numerical implementation via splines for distributed current in spherical geometry
- Electro-magneto-encephalography for the three-shell model: minimal L 2 -norm in spherical geometry
- Electric field and potential calculation for a bioelectric current dipole in an ellipsoid
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