Towards 3D inversion of ground based TEM data

Kristoffer R Andersen; Casper Kirkegaard; Esben Auken; Anders V Christiansen

doi:10.1071/ASEG2016ab243

25th International Conference and Exhibition – Interpreting the Past, Discovering the Future

ISSN: 2202-0586
E-ISSN:

oa Towards 3D inversion of ground based TEM data
Authors Kristoffer R Andersen^a, Casper Kirkegaard^b, Esben Auken^c and Anders V Christiansen^d
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^a Aarhus University, C.F. Møllers Alle 4 8000, Aarhus C, Denmark, [email protected] ^b Aarhus University, C.F. Møllers Alle 4 8000, Aarhus C, Denmark, [email protected] ^c Aarhus University, C.F. Møllers Alle 4 8000, Aarhus C, Denmark, [email protected] ^d Aarhus University, C.F. Møllers Alle 4 8000, Aarhus C, Denmark, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2016, Issue 25th International Conference and Exhibition – Interpreting the Past, Discovering the Future, Dec 2016, p. 1 - 5
DOI: https://doi.org/10.1071/ASEG2016ab243
- Published online: 01 Dec 2016

Abstract

We describe the setup for inversion of ground based TEM data using a 3D modelling code and a full description of the measurement system using the system response. The response is calculated using a finite volume method where we solve for the electric field on the edges of a staggered grid and time step solutions using backward Euler steps. For the forward calculation we use an iterative solver and a preconditioner which solves the Helmholtz decomposed E-fields. In the iterative process we take advantage of the similarity between different time steps and always use the previous result as the starting point of the next iteration. To compare the calculated fields with measured data we interpolate the fields to the receiver positions and convolute the calculated fields with the system response. In this way we include all system related effects in the calculation and this is in particular relevant for the early time signal. We show that the forward code is in good agreement with the analytic response from a half space and sketch the layout of survey setup with a large, centrally positioned transmitter and many receivers located around the transmitter. We demonstrate that the code can be used to invert data from a single loop system with multiple receivers as commonly used in ground follow-up surveys in mineral exploration.

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References

Andersen, K.R., Nyboe, N.S., Kirkegaard, C., Auken, E., and Christiansen, A.V., 2015. A System Response Convolution Routine for Improved near Surface Sensitivity in Skytem Data. EAGE First European Airborne Electromagnetics Conference, Tu AEM 07.
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Cox, L.H., Wilson, G.A., and Zhdanov, M.S., 2010, 3d Inversion of Airborne Electromagnetic Data Using a Moving Footprint. Exploration Geophysics41, 250-59.
Haber, E., 2015, Computational Methods in Geophysical Electromagnetics. Society of Industrial and Applied Mathematics.
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Kirkegaard, C., Andersen, K., Boesen, T., Christiansen, V., Auken, E., and Fiandaca, G., 2015, Utilizing Massively Parallel Co-Processors in the Aarhusinv 1d Forward and Inverse Aem Modelling Code. ASEG Extended Abstracts2015, 1-3.
Newman, G.A., Anderson, W.L., and Hohmann, G.W., 1987, Interpretation of Transient Electromagnetic Soundings over Three-Dimensional Structures for the Central-Loop Configuration. Geophysical Journal Of The Royal Astronomical Society89, 889-914.
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Article Type: Research Article

Keyword(s): 3D TEM; inversion; system modelling

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oa Towards 3D inversion of ground based TEM data

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