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1 Acta Geophysica

1 2021

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An efcient multiparameter acoustic anisotropic full-waveform inversion depending on parameterization

Shin Youngjae, Oh Ju Won, Min Dong Joo

Acta Geophysica

2021

Vol. 69, no. 4

1257--1267

The pressure-based acoustic approximation of the elastic wave equations in anisotropic media has advantages corresponding to computational efciency and numerical stability. However, the numerical scattering potentials from the anisotropic parameter perturbations for the pressure wavefeld are not consistent with the elastic scattering theory. In multiparameter full-waveform inversion (FWI), choosing a suitable parameterization, considering the acquisition parameters (e.g., the ofsetto-depth ratio and frequency band) and the accuracy of the anisotropy information in the background initial velocity model, is an important component to a successful anisotropic parameter estimation, because the parameterization determines the trade-of between inverted model parameters and their resolution power. However, because it is difcult to perform multiparameter FWI with various types of parameterization using the pressure-based acoustic wave equation, inaccurate scattered wavefelds cause the gradient direction to lose its unique properties with respect to each model parameter. To overcome these issues, we adopt the combination of pressure- and vector-based acoustic wave equations converted vector virtual sources, which preserves the computational efciency and the angular dependency of the partial derivative wavefelds in elastic media. With the proposed method, we generate the numerical PP scattering patterns for various parameterizations, which are consistent with the elastic scattering theory. Through the numerical tests using the synthetic anisotropic Marmousi-II models and a real ocean bottom cable dataset from the North Sea, we conduct acoustic FWI with three diferent parameterizations using the proposed method and verify that the modifed scattering patterns accurately refect the characteristics of the anisotropic parameter perturbations.