Hybrid Frequency Domain Full Waveform Inversion Using Born Sensitivity Kernels

R. Djebbi; T. Alkhalifah

doi:10.3997/2214-4609.201600644

Hybrid Frequency Domain Full Waveform Inversion Using Born Sensitivity Kernels
Authors R. Djebbi¹, T. Alkhalifah¹
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Affiliations: ¹ King Abdullah University of Science and Technology
Publisher: European Association of Geoscientists & Engineers
Source: Conference Proceedings, 78th EAGE Conference and Exhibition 2016, May 2016, Volume 2016, p.1 - 5
DOI: https://doi.org/10.3997/2214-4609.201600644

Abstract

Summary

Full Waveform inversion (FWI) using the scattering integral (SI) approach is an explicit formulation of the inversion optimization problem. The inversion equations are straightforward and the dependence on the data residuals and model parameters is clear. However, the biggest limitation with this approach is the huge computational cost for exploration seismology applications. To deal with this issue, we propose a hybrid implementation of the frequency domain FWI using the Born sensitivity kernels. Specifically, we use the sensitivity kernels computed from dynamic ray-tracing to build the gradient. We compute also the truncated Gauss-Newton update direction using the kernels without extra wavefield modeling steps. Considering that in FWI long-to-intermediate wavelengths are updated during the first iterations, using a transmission experiment

we obtain accurate inverted models. The inversion managed to develop the anomaly embedded in the homogeneous background medium. The truncated Gauss-Newton updates helped in the fast convergence. With this approach we managed to reduce the computational cost and the memory requirements. For more complex models, the hybrid inversion method help improving the initial model with little cost compared to conventional SI inversion.

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2016-05-30

2024-04-19

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References

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Hybrid Frequency Domain Full Waveform Inversion Using Born Sensitivity Kernels

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Hybrid Frequency Domain Full Waveform Inversion Using Born Sensitivity Kernels

Abstract

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The natural combination of full and image‐based waveform inversion

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Characterizing the effect of elastic interactions on the effective elastic properties of porous, cracked rocks

Fracture detection by Gaussian beam imaging of seismic data and image spectrum analysis

Laboratory measurements of guided‐wave propagation within a fluid‐saturated fracture