Joint inversion of the reflectivity and the velocity model

Cabrales-Vargas, Alejandro; Sarkar, Rahul; Biondi, Biondo; Clapp, Robert G.

doi:10.1190/geo2020-0631.1

GEOPHYSICS

2021

DOI: 10.1190/geo2020-0631.1

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Joint inversion of the reflectivity and the velocity model

Alejandro Cabrales-Vargas

Rahul Sarkar

Biondo Biondi

et al.

Abstract: During linearized waveform inversion, the presence of small inaccuracies in the background subsurface model can lead to unfocused seismic events in the final image. The effect on the amplitude can mislead the interpretation. We present a joint inversion scheme in the model domain of the reflectivity and the background velocity model. The idea is to unify the inversion of the background and the reflectivity model into a single framework instead of treating them as decoupled problems. We show that with this meth… Show more

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2023

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Cited by 2 publications

References 35 publications

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Second-order optimization for multiparameter reflection waveform inversion in acoustic VTI media

Wu,

Wang,

Cheng

2023

Geophysical Journal International

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SUMMARY The seismic wave velocity in subsurface formations typically varies both spatially and directionally, resulting in a heterogeneous and anisotropic medium. To successfully image complex structures and potential reservoirs using multichannel seismic data, high-resolution interval velocity models are required. However, most controlled-source seismic recordings lack wide-angle signals, such as diving and refracted waves that propagate through deep formations. Consequently, geophysicists rely on the traveltimes and waveforms of reflections or back-scatterings in finite-frequency and finite-offset seismograms to estimate velocity and account for possible anisotropy. Recently, wave-equation based reflection waveform inversion (RWI) has emerged as an active research topic due to its ability to recover intermediate-wavelength model components that cannot be retrieved in reflection traveltime tomography. Nevertheless, the widely used gradient-type local optimization suffers from multiparameter trade-off and slow convergence of RWI in anisotropic media. Analysis of the Fréchet derivative reveals that the sensitivity of reflections to changes in long-to-intermediate wavelengths of the anisotropic velocities is jointly controlled by the specular reflection on the interface and the radiation pattern of scattered fields concerning the model parameters along the wave paths. Anatomy of the approximate Hessian reveals characteristics of parameter coupling and spatial resolution in the context of multiparameter RWI, inspiring the development of a matrix-free Gauss–Newton algorithm based on the second-order adjoint-state method for large-scale applications. Synthetic and real data examples demonstrate that the proposed approach can appropriately handle overburden heterogeneities and anisotropies, and thus improve imaging of underlying complex structures such as dipping and small-scale faults in the deep parts.

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Second-order optimization for multiparameter reflection waveform inversion in acoustic VTI media

Wu,

Wang,

Cheng

2023

Geophysical Journal International

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Iterative Reweighted Least-Squares Gaussian Beam Migration and Velocity Inversion in the Image Domain Based on Point Spread Functions

Duan

Mao

Shi

et al. 2023

IEEE Trans. Geosci. Remote Sensing

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Joint inversion of the reflectivity and the velocity model

Cited by 2 publications

References 35 publications

Second-order optimization for multiparameter reflection waveform inversion in acoustic VTI media

Second-order optimization for multiparameter reflection waveform inversion in acoustic VTI media

Iterative Reweighted Least-Squares Gaussian Beam Migration and Velocity Inversion in the Image Domain Based on Point Spread Functions

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