Dispersion inversion of guided p waves in a waveguide of arbitrary geometry

Jing Li; Sherif Hanafy; Gerard T. Schuster

doi:10.1190/segam2018-2996586.1

Dispersion inversion of guided p waves in a waveguide of arbitrary geometry

Jing Li
, Sherif Hanafy
, Gerard T. Schuster

Research output: Contribution to conference › Paper › peer-review

2 Scopus citations

Abstract

We present the theory for wave equation inversion of dispersion curves obtained from traces containing guided P waves. The misfit function is the sum of the squared differences between the wavenumbers along the predicted and observed dispersion curves, and the inverted result is a high-resolution estimate of the near-surface P-velocity model. This procedure, denoted as the wave equation dispersion inversion of guided P waves (WDG), is valid for near-surface waveguides with irregular layers. It is less prone to the cycle skipping problems of full waveform inversion (FWI) and can sometimes provide velocity models with higher resolution than wave-equation traveltime tomography (WT). The synthetic and field data examples demonstrate that WDG for guided P waves can accurately reconstruct the P-wave velocity distribution in laterally heterogeneous media.

Original language	English
Pages	2526-2530
Number of pages	5
DOIs	https://doi.org/10.1190/segam2018-2996586.1
State	Published - 2019
Externally published	Yes

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Publisher Copyright:
© 2018 SEG.

ASJC Scopus subject areas

Geophysics

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title = "Dispersion inversion of guided p waves in a waveguide of arbitrary geometry",

abstract = "We present the theory for wave equation inversion of dispersion curves obtained from traces containing guided P waves. The misfit function is the sum of the squared differences between the wavenumbers along the predicted and observed dispersion curves, and the inverted result is a high-resolution estimate of the near-surface P-velocity model. This procedure, denoted as the wave equation dispersion inversion of guided P waves (WDG), is valid for near-surface waveguides with irregular layers. It is less prone to the cycle skipping problems of full waveform inversion (FWI) and can sometimes provide velocity models with higher resolution than wave-equation traveltime tomography (WT). The synthetic and field data examples demonstrate that WDG for guided P waves can accurately reconstruct the P-wave velocity distribution in laterally heterogeneous media.",

author = "Jing Li and Sherif Hanafy and Schuster, \{Gerard T.\}",

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year = "2019",

doi = "10.1190/segam2018-2996586.1",

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T1 - Dispersion inversion of guided p waves in a waveguide of arbitrary geometry

AU - Li, Jing

AU - Hanafy, Sherif

AU - Schuster, Gerard T.

PY - 2019

Y1 - 2019

N2 - We present the theory for wave equation inversion of dispersion curves obtained from traces containing guided P waves. The misfit function is the sum of the squared differences between the wavenumbers along the predicted and observed dispersion curves, and the inverted result is a high-resolution estimate of the near-surface P-velocity model. This procedure, denoted as the wave equation dispersion inversion of guided P waves (WDG), is valid for near-surface waveguides with irregular layers. It is less prone to the cycle skipping problems of full waveform inversion (FWI) and can sometimes provide velocity models with higher resolution than wave-equation traveltime tomography (WT). The synthetic and field data examples demonstrate that WDG for guided P waves can accurately reconstruct the P-wave velocity distribution in laterally heterogeneous media.

AB - We present the theory for wave equation inversion of dispersion curves obtained from traces containing guided P waves. The misfit function is the sum of the squared differences between the wavenumbers along the predicted and observed dispersion curves, and the inverted result is a high-resolution estimate of the near-surface P-velocity model. This procedure, denoted as the wave equation dispersion inversion of guided P waves (WDG), is valid for near-surface waveguides with irregular layers. It is less prone to the cycle skipping problems of full waveform inversion (FWI) and can sometimes provide velocity models with higher resolution than wave-equation traveltime tomography (WT). The synthetic and field data examples demonstrate that WDG for guided P waves can accurately reconstruct the P-wave velocity distribution in laterally heterogeneous media.

UR - https://www.scopus.com/pages/publications/85059421456

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DO - 10.1190/segam2018-2996586.1

M3 - Paper

AN - SCOPUS:85059421456

SP - 2526

EP - 2530

ER -

Dispersion inversion of guided p waves in a waveguide of arbitrary geometry

Abstract

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