Quasielastic generalized full-wavefield modeling with extension to transversely isotropic media

Hussain Hammad; D.J. Verschuur

doi:10.1190/segam2018-2998252.1

Abstract

Generalized full wavefield modeling is a modeling process that utilizes reflection and transmission operators for inhomogeneous media in order to produce the wavefields. We extend this modeling process to the quasi-elastic anisotropic situation, where the elastodynamic generalized vertical wavenumber operator for P-waves is embedded in the acoustic formulation, assuming TIV media. Two examples are computed; one for homogeneous and the other for inhomogeneous media. The wavefields generated exhibit the typical angular distortion behavior introduced by anisotropy. While useful on its own, this extension of generalized full wavefield modeling paves the road to the inversion process, model-independent joint migration inversion.

Original language	English
Pages	3933-3937
DOIs	https://doi.org/10.1190/segam2018-2998252.1
Publication status	Published - 2018
Event	SEG Annual Meeting 2018 - Anaheim convention Center, Anaheim, United States Duration: 14 Oct 2018 → 19 Oct 2018 Conference number: 88 https://seg.org/Annual-Meeting-2018

Other

Other	SEG Annual Meeting 2018
Abbreviated title	SEG 2018
Country/Territory	United States
City	Anaheim
Period	14/10/18 → 19/10/18
Internet address	https://seg.org/Annual-Meeting-2018

Keywords

anisotropy
modeling
compressional wave (P-wave)
decomposition
elastic

Access to Document

10.1190/segam2018-2998252.1

Cite this

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title = "Quasielastic generalized full-wavefield modeling with extension to transversely isotropic media",

abstract = "Generalized full wavefield modeling is a modeling process that utilizes reflection and transmission operators for inhomogeneous media in order to produce the wavefields. We extend this modeling process to the quasi-elastic anisotropic situation, where the elastodynamic generalized vertical wavenumber operator for P-waves is embedded in the acoustic formulation, assuming TIV media. Two examples are computed; one for homogeneous and the other for inhomogeneous media. The wavefields generated exhibit the typical angular distortion behavior introduced by anisotropy. While useful on its own, this extension of generalized full wavefield modeling paves the road to the inversion process, model-independent joint migration inversion.",

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author = "Hussain Hammad and D.J. Verschuur",

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language = "English",

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T1 - Quasielastic generalized full-wavefield modeling with extension to transversely isotropic media

AU - Hammad, Hussain

AU - Verschuur, D.J.

N1 - Conference code: 88

PY - 2018

Y1 - 2018

N2 - Generalized full wavefield modeling is a modeling process that utilizes reflection and transmission operators for inhomogeneous media in order to produce the wavefields. We extend this modeling process to the quasi-elastic anisotropic situation, where the elastodynamic generalized vertical wavenumber operator for P-waves is embedded in the acoustic formulation, assuming TIV media. Two examples are computed; one for homogeneous and the other for inhomogeneous media. The wavefields generated exhibit the typical angular distortion behavior introduced by anisotropy. While useful on its own, this extension of generalized full wavefield modeling paves the road to the inversion process, model-independent joint migration inversion.

AB - Generalized full wavefield modeling is a modeling process that utilizes reflection and transmission operators for inhomogeneous media in order to produce the wavefields. We extend this modeling process to the quasi-elastic anisotropic situation, where the elastodynamic generalized vertical wavenumber operator for P-waves is embedded in the acoustic formulation, assuming TIV media. Two examples are computed; one for homogeneous and the other for inhomogeneous media. The wavefields generated exhibit the typical angular distortion behavior introduced by anisotropy. While useful on its own, this extension of generalized full wavefield modeling paves the road to the inversion process, model-independent joint migration inversion.

KW - anisotropy

KW - modeling

KW - compressional wave (P-wave)

KW - decomposition

KW - elastic

U2 - 10.1190/segam2018-2998252.1

DO - 10.1190/segam2018-2998252.1

M3 - Abstract

SP - 3933

EP - 3937

T2 - SEG Annual Meeting 2018

Y2 - 14 October 2018 through 19 October 2018

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