Depth of Investigation for Multi-parameters Inversions

G. Fiandaca; A.V. Christiansen; E. Auken

doi:10.3997/2214-4609.201413797

Depth of Investigation for Multi-parameters Inversions
Authors G. Fiandaca¹, A.V. Christiansen¹, E. Auken¹
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Affiliations: ¹ Aarhus University
Publisher: European Association of Geoscientists & Engineers
Source: Conference Proceedings, Near Surface Geoscience 2015 - 21st European Meeting of Environmental and Engineering Geophysics, Sep 2015, Volume 2015, p.1 - 5
DOI: https://doi.org/10.3997/2214-4609.201413797

Abstract

Summary

We have developed a new robust concept for the calculation of the depth of investigation (DOI) for inversion problems described by several intrinsic parameters, like the spectral inversion of time-domain induced polarization data or the inversion of full-decay Nuclear Magnetic Resonance soundings. A calculation of the DOI is crucial for interpreting the geophysical models, as the validity of the model varies considerably with data noise and parameter distribution. Without the DOI estimate, it is difficult to judge when the information in the model is data-driven or is strongly dependent on the constraints and/or on the starting value. The proposed method is based on an approximated covariance analysis applied to the model output from the inversion while considering the data standard deviations. Furthermore, the cross-correlations between intrinsic parameters are taken into account in the computations, which is crucial when strong cross-correlations are expected. The new DOI estimate is described in detail and compared to the full covariance analysis on the model parameters using 2D spectral inversion of time-domain induced polarization data as an example. The DOI presented here behaves as anticipated on a synthetic model and is suggested as a general approach for model-spaces with more than one physical parameter.

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2015-09-06

2024-04-19

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References

Auken, E., Christiansen, A.V., Kirkegaard, C., Fiandaca, G., Schamper, C., Behroozmand, A.A., Binley, A., Nielsen, E., Efferso, F., Christensen, N.B., Sorensen, K.I., Foged, N., and Vignoli, G.
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Behroozmand, A.A., Auken, E., Fiandaca, G., Christiansen, A.V. and Christensen, N.B.
[2012] Efficient full decay inversion of MRS data with a stretched-exponential approximation of the T2* distribution. Geophysical Journal International, 190, 900–912.
[Google Scholar]
Christiansen, A.V. and Auken, E.
[2012] A global measure for depth of investigation. Geophysics, 77, WB171–WB177.
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Cole, K.S. and Cole, R.H.
[1941] Dispersion and absorption in dielectrics. Journal of Chemical Physics, 9, 341–351.
[Google Scholar]
Fiandaca, G., Auken, E., Gazoty, A. and Christiansen, A.V.
[2012] Time-domain induced polarization: Full-decay forward modeling and 1D laterally constrained inversion of Cole-Cole parameters. Geophysics, 77, E213–E225.
[Google Scholar]
Fiandaca, G., Ramm, J., Binley, A., Gazoty, A., Christiansen, A.V. and Auken, E.
[2013] Resolving spectral information from time domain induced polarization data through 2-D inversion. Geophysical Journal International, 192, 631–646.
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[1982] Generalized nonlinear inverse problems solved using a least squares criterion. Reviews of Geophysics and Space Physics, 20, 219–232.
[Google Scholar]

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Depth of Investigation for Multi-parameters Inversions

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