Non-linear three-dimensional inversion of cross-well electrical measurements

Cross-well electrical measurement as known in the oil industry is a method for determining the electrical conductivity distribution between boreholes from the electrostatic field measurements in the boreholes. We discuss the reconstruction of the conductivity distribution of a three-dimensional doma in. The measured secondary electric potential field is represented in terms of an integral equation for the vector electric field. This integral equat ion is taken as the starting point to develop a non-linear inversion method , the so-called contrast source inversion (CSI) method. The CSI method cons iders the inverse scattering problem as an inverse source problem in which the unknown contrast source (the product of the total electric field and th e conductivity contrast) in the object domain is reconstructed by minimizin g the object and data error using a conjugate-gradient step, after which th e conductivity contrast is updated by minimizing only the error in the obje ct. This method has been tested on a number of numerical examples using the synthetic 'measured' data with and without noise. Numerical tests indicate that the inversion method yields a reasonably good reconstruction result, and is fairly insensitive to added random noise.