Preface.
Part I. 3-D EM modeling.
1. An integral equation solution to the geophysical electromagnetic forward-modeling problem (C.G. Farquharson, D.W. Oldenburg).
2. Compression in 3-D integral equation modeling (M.S. Zhdanov, O. Portniaguine, G. Hursan).
3. Modeling electromagnetic fields in a 3-D spherical earth using a fast integral equation approach (A. Kuvshinov, D. Avdeev, O. Pankratov, S. Golyshev).
4. Modeling induction log responses in 3-D geometries using fast integral equation approach (D. Avdeev, A. Kuvshinov, O. Pankratov, G.A. Newman, B. Rudyak).
5. Nonlinear approximations for electromagnetic scattering from electrical and magnetic inhomogeneities (A. Cheryauka, M.S. Zhdanov, M. Sato).
6. Three-dimensional modeling considering the topography for the case of time-domain electromagnetic method (M. Endo, K. Noguchi).
7. Reduced-order modeling of transient diffusive electromagnetic fields (R.F. Remis, P.M. Van den Berg).
Part II. 3-D EM inversion.
8. Three-dimensional magnetotelluric modeling and inversion: application to sub-salt imaging (G.A. Newman, G.M. Hoversten, D.L. Alumbaugh).
9. 2-D inversion of frequency-domain EM data caused by a 3-D source (Y. Mitsuhata, T. Uchida).
10. 3-D focusing inversion of CSAMT Data (O. Portniaguine, M.S. Zhdanov).
11. SGILD EM modeling and inversion using magnetic field equations (Ganquan Xie, Jianhua Li, Chien-Chang Lin).
12. Application of a non-orthogonal coordinate system to inverse single-well electromagnetic logging problem (A. Abubakar, P.M. Van den Berg).
Part III. 3-D EM in practice.
13. Decomposition of three dimensional magnetotelluric data (X. Garcia, A.G. Jones).
14. On the determination of the electrical 3-D conductivity distribution beneath Iceland with long period magnetotellurics (A. Kreutzmann, A. Junge).
15. Three-dimensional monitoring of Vadose zone infiltration using electrical resistivity tomography and cross-borehole ground penetrating radar (D. LaBrecque, D.L. Alumbaugh, Xianjin Yang, L. Paprocki, J. Brainard).
16. Polarimetric borehole radar approach to fracture classification (M. Sato, M. Takeshita).