Open AccessResistivity inversion of transversely isotropic media
Author(s) -
Ertan Pekşen,
Türker Yas
Publication year - 2018
Publication title -
turkish journal of earth sciences
Language(s) - English
Resource type - Journals
eISSN - 1303-619X
pISSN - 1300-0985
DOI - 10.3906/yer-1702-6
Subject(s) - anisotropy , electrical resistivity and conductivity , isotropy , inversion (geology) , transverse isotropy , geophysics , geology , inverse , finite difference method , inverse transform sampling , inverse problem , mathematical analysis , geometry , physics , optics , mathematics , surface wave , paleontology , quantum mechanics , structural basin
In this paper, we have suggested a finite difference algorithm for resistivity forward and inverse modeling with electrically anisotropic media in applied geophysics. Electrical anisotropy affects the surface measurement in a fashion that may make interpretation erroneous. This means that the resistivity section obtained by an inversion method that does not incorporate electrical anisotropy gives the wrong subsurface structure. We used a classical multielectrode dataset of a profile for estimating not only horizontal but vertical resistivity as well. Thus, the electrical anisotropy can be calculated. Finally, the finite difference mesh can be corrected by using the estimated anisotropic coefficient. The result of the developed algorithm was verified with a 2-layered analytic solution. Furthermore, the present method was also tested on a field dataset.
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