Fast numerical modeling of multitransmitter electromagnetic data using multigrid quasi-linear approximation |
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Authors: | Ueda T Zhdanov MS |
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Affiliation: | Geol. & Geophys. Dept., Univ. of Utah, Salt Lake City, UT, USA; |
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Abstract: | Multitransmitter electromagnetic (EM) surveys are widely used in remote-sensing and geophysical exploration. The interpretation of the multitransmitter geophysical data requires numerous three-dimensional (3-D) modelings of the responses of the receivers for different geoelectrical models of complex geological formations. In this paper, we introduce a fast method for 3-D modeling of EM data, based on a modified version of quasilinear approximation, which uses a multigrid approach. This method significantly speeds up the modeling of multitransmitter-multireceiver surveys. The developed algorithm has been applied for the interpretation of marine controlled-source electromagnetic (MCSEM) data. We have tested our new method using synthetic problems and for the simulation of MCSEM data for a geoelectrical model of a Gemini salt body. |
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