An Efficient Wavefield Inversion

T. Alkhalifah; C. Song

doi:10.3997/2214-4609.201900879

An Efficient Wavefield Inversion
Authors T. Alkhalifah¹, C. Song¹
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Affiliations: ¹ KAUST
Publisher: European Association of Geoscientists & Engineers
Source: Conference Proceedings, 81st EAGE Conference and Exhibition 2019, Jun 2019, Volume 2019, p.1 - 5
DOI: https://doi.org/10.3997/2214-4609.201900879

Abstract

Summary

The wavefield is often reconstructed through solving a wave equation corresponding to an active source and using our best available medium parameters to reproduce the data.

Alternatively, if the medium parameters are unknown, the wavefield can be inverted, along with the velocity model, in an extended optimization problem. In this case, the process requires a matrix inversion at practically every iteration. Alternatively, we formulate a bilinear optimization problem with respect to the wavefield and a modified source function, as independent variables. We specifically recast the wave equation so that velocity perturbations are included in this modified source function (that includes secondary sources), and thus, it represents the velocity perturbations implicitly. The optimization includes a measure of the wavefield's fit to the data at sensor locations and the wavefield, as well as the modified source function, compliance with a wave equation corresponding to the background model. One of the features of this background model wave equation is that it provides opportunities for efficient solutions, and it extends the source to accommodate perturbations missing in the background medium. Meanwhile, the velocity perturbations can be extracted in a separate step via direct division. We demonstrate these features on a simple two-anomalies model.

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2019-06-03

2024-04-24

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References

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An Efficient Wavefield Inversion

Conference Proceedings 2019, 1 (2019); https://doi.org/10.3997/2214-4609.201900879

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An Efficient Wavefield Inversion

Abstract

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The natural combination of full and image‐based waveform inversion

Poststack diffraction imaging using reverse‐time migration

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

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