The impact of 3D tilted resistivity anisotropy on marine CSEM measurements

Davydycheva, Sofia; Frenkel, Michael A.

doi:10.1190/tle32111374.1

Cited by 25 publications

(2 citation statements)

References 21 publications

(20 reference statements)

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“…This VTI assumption is suitable for sedimentary rock formations with approximately horizontal bedding. For dipping formations, however, the additional effect of the tilted transversely isotropic (TTI) formation can have a significant impact on marine CSEM data, as shown by Davydycheva and Frenkel (2013). In this paper, we show how TTI anisotropy can be included in a 3D inversion of marine CSEM data and compare VTI and TTI imaging results for a synthetic model and a CSEM field data set acquired over steeply dipping geology.…”

Section: Introductionmentioning

confidence: 97%

Comparison of TTI and VTI 3D Inversion of CSEM Data

Panzner¹,

Shantsev²,

Mohn³

2018

Proceedings

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Electrical anisotropy of steeply-dipping sedimentary rock formations can have a significant effect on marine CSEM data. We demonstrate how this TTI anisotropy can be taken into account in a 3D CSEM inversion, and compare VTI and TTI inversion results for a synthetic model and a CSEM field data set acquired over steeply-dipping geology. The results show that VTI inversion of CSEM data is inadequate in anisotropic, steeply-dipping geology, leading to spurious resistivity anomalies, whereas the TTI inversion produces geologically sound resistivity models with a better data fit.

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Section: Introductionmentioning

confidence: 97%

Comparison of TTI and VTI 3D Inversion of CSEM Data

Panzner¹,

Shantsev²,

Mohn³

2018

Proceedings

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“…This assumption works well provided that the anisotropic formations do not have significant dip. However, recent modeling studies (Davydycheva and Frenkel, 2013;Li and Dai, 2011) have shown that the effect of dipping anisotropy, known as tilted transverse isotropy (TTI), can have a significant impact on marine CSEM data, and cannot be accurately modeled under the VTI assumption. A pertinent question is therefore what effect TTI has on VTI inversion, and how to properly account for TTI in inversion.…”

Section: Introductionmentioning

confidence: 99%

TTI inversion of marine CSEM data

Panzner

Shantsev

Mittet

2016

SEG Technical Program Expanded Abstracts 2016

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We present a 3D inversion algorithm for marine CSEM data which takes the electrical anisotropy of steeply-dipping sedimentary rock formations into account. This anisotropy can have a significant impact on CSEM data, and we show that failure to take it into account may lead to imaging artifacts, which complicates the interpretation of the resistivity image. We apply our algorithm to both synthetic data and a field data set acquired over the Perdido fold belt in the Gulf of Mexico, and compare the results from VTI and TTI inversions.

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Finite Element Simulation of 3-D Marine Controlled Source Electromagnetic Fields in Anisotropic Media with Unstructured Tetrahedral Grids

Peng

et al. 2020

Pure Appl. Geophys.

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The impact of 3D tilted resistivity anisotropy on marine CSEM measurements

Cited by 25 publications

References 21 publications

Comparison of TTI and VTI 3D Inversion of CSEM Data

Comparison of TTI and VTI 3D Inversion of CSEM Data

TTI inversion of marine CSEM data

Finite Element Simulation of 3-D Marine Controlled Source Electromagnetic Fields in Anisotropic Media with Unstructured Tetrahedral Grids

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