Laplace-domain waveform modeling and inversion for the 3D acoustic–elastic coupled media

Laplace-domain waveform inversion reconstructs long-wavelength subsurface models by using the zero-frequency component of damped seismic signals. Despite the computational advantages of Laplace-domain waveform inversion over conventional frequency-domain waveform inversion, an acoustic assumption an...

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Vydáno v:	Journal of applied geophysics Ročník 129; s. 41 - 52
Hlavní autoři:	Shin, Jungkyun, Shin, Changsoo, Calandra, Henri
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Elsevier B.V 01.06.2016
Témata:	Acoustic coupling Acoustic–elastic coupled Algorithms Full waveform inversion Inversions Laplace-domain Mathematical models Parallel sparse direct solver Solvers Three dimensional Three dimensional models Waveforms Laplace-domain Parallel sparse direct solver Full waveform inversion Acoustic–elastic coupled
ISSN:	0926-9851, 1879-1859
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Abstract	Laplace-domain waveform inversion reconstructs long-wavelength subsurface models by using the zero-frequency component of damped seismic signals. Despite the computational advantages of Laplace-domain waveform inversion over conventional frequency-domain waveform inversion, an acoustic assumption and an iterative matrix solver have been used to invert 3D marine datasets to mitigate the intensive computing cost. In this study, we develop a Laplace-domain waveform modeling and inversion algorithm for 3D acoustic–elastic coupled media by using a parallel sparse direct solver library (MUltifrontal Massively Parallel Solver, MUMPS). We precisely simulate a real marine environment by coupling the 3D acoustic and elastic wave equations with the proper boundary condition at the fluid-solid interface. In addition, we can extract the elastic properties of the Earth below the sea bottom from the recorded acoustic pressure datasets. As a matrix solver, the parallel sparse direct solver is used to factorize the non-symmetric impedance matrix in a distributed memory architecture and rapidly solve the wave field for a number of shots by using the lower and upper matrix factors. Using both synthetic datasets and real datasets obtained by a 3D wide azimuth survey, the long-wavelength component of the P-wave and S-wave velocity models is reconstructed and the proposed modeling and inversion algorithm are verified. A cluster of 80CPU cores is used for this study. •Modeling and inversion algorithm are developed for 3D acoustic–elastic coupled media.•Parallel direct matrix solver (MUMPS) is used for 3D modeling and inversion.•3D Real WAZ dataset is used for the verification of the proposed algorithm.
AbstractList	Laplace-domain waveform inversion reconstructs long-wavelength subsurface models by using the zero-frequency component of damped seismic signals. Despite the computational advantages of Laplace-domain waveform inversion over conventional frequency-domain waveform inversion, an acoustic assumption and an iterative matrix solver have been used to invert 3D marine datasets to mitigate the intensive computing cost. In this study, we develop a Laplace-domain waveform modeling and inversion algorithm for 3D acoustic–elastic coupled media by using a parallel sparse direct solver library (MUltifrontal Massively Parallel Solver, MUMPS). We precisely simulate a real marine environment by coupling the 3D acoustic and elastic wave equations with the proper boundary condition at the fluid-solid interface. In addition, we can extract the elastic properties of the Earth below the sea bottom from the recorded acoustic pressure datasets. As a matrix solver, the parallel sparse direct solver is used to factorize the non-symmetric impedance matrix in a distributed memory architecture and rapidly solve the wave field for a number of shots by using the lower and upper matrix factors. Using both synthetic datasets and real datasets obtained by a 3D wide azimuth survey, the long-wavelength component of the P-wave and S-wave velocity models is reconstructed and the proposed modeling and inversion algorithm are verified. A cluster of 80CPU cores is used for this study. •Modeling and inversion algorithm are developed for 3D acoustic–elastic coupled media.•Parallel direct matrix solver (MUMPS) is used for 3D modeling and inversion.•3D Real WAZ dataset is used for the verification of the proposed algorithm. Laplace-domain waveform inversion reconstructs long-wavelength subsurface models by using the zero-frequency component of damped seismic signals. Despite the computational advantages of Laplace-domain waveform inversion over conventional frequency-domain waveform inversion, an acoustic assumption and an iterative matrix solver have been used to invert 3D marine datasets to mitigate the intensive computing cost. In this study, we develop a Laplace-domain waveform modeling and inversion algorithm for 3D acoustic-elastic coupled media by using a parallel sparse direct solver library (MUltifrontal Massively Parallel Solver, MUMPS). We precisely simulate a real marine environment by coupling the 3D acoustic and elastic wave equations with the proper boundary condition at the fluid-solid interface. In addition, we can extract the elastic properties of the Earth below the sea bottom from the recorded acoustic pressure datasets. As a matrix solver, the parallel sparse direct solver is used to factorize the non-symmetric impedance matrix in a distributed memory architecture and rapidly solve the wave field for a number of shots by using the lower and upper matrix factors. Using both synthetic datasets and real datasets obtained by a 3D wide azimuth survey, the long-wavelength component of the P-wave and S-wave velocity models is reconstructed and the proposed modeling and inversion algorithm are verified. A cluster of 80 CPU cores is used for this study.
Author	Shin, Jungkyun Calandra, Henri Shin, Changsoo
Author_xml	– sequence: 1 givenname: Jungkyun surname: Shin fullname: Shin, Jungkyun organization: Korea Institute of Geoscience and Mineral Resources, 905, Yeongilman-daero, Heunghae-eup, Buk-gu, Pohang, Gyeongsangbuk-do 37559, South Korea – sequence: 2 givenname: Changsoo orcidid: 0000-0001-7239-7017 surname: Shin fullname: Shin, Changsoo email: css@model.snu.ac.kr organization: Department of Energy System Engineering, Seoul National University, 1, Gwanak-ro, Gwanak-gu, Seoul 08826, South Korea – sequence: 3 givenname: Henri surname: Calandra fullname: Calandra, Henri organization: TOTAL Exploration & Production, Houston, USA
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Cites_doi	10.1111/j.1365-246X.2006.02978.x 10.1046/j.1365-246X.2002.01645.x 10.1190/1.1581072 10.1111/j.1365-2478.2010.00927.x 10.1016/S0045-7825(99)00242-X 10.1111/j.1365-2478.2011.00954.x 10.1111/j.1365-246X.2011.05141.x 10.1111/j.1365-2478.2010.00879.x 10.1190/1.1442384 10.1016/j.jappgeo.2012.05.009 10.1190/1.1442147 10.1785/0120100061 10.1029/97JB03536 10.1190/geo2012-0365.1 10.1046/j.1365-246X.1998.00632.x 10.1111/j.1365-2478.2012.01099.x 10.1016/j.jappgeo.2014.03.013 10.1190/1.1442422 10.1111/j.1365-2478.2008.00735.x 10.1190/1.3238367 10.1785/BSSA0660030639 10.1190/1.1441574 10.1111/j.1365-246X.2008.03768.x 10.1029/94JB01942 10.1190/1.1441689 10.1190/1.1442046 10.1111/j.1365-2478.2004.00452.x 10.1046/j.1365-2478.2001.00279.x 10.1111/j.1365-2478.2008.00698.x 10.1016/j.cageo.2008.04.013 10.1190/1.1441754 10.1190/1.1444758 10.1046/j.1365-246X.1998.00498.x 10.1111/j.1365-2478.2007.00617.x 10.1190/1.1443880 10.1190/1.2194523
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Snippet	Laplace-domain waveform inversion reconstructs long-wavelength subsurface models by using the zero-frequency component of damped seismic signals. Despite the...
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SubjectTerms	Acoustic coupling Acoustic–elastic coupled Algorithms Full waveform inversion Inversions Laplace-domain Mathematical models Parallel sparse direct solver Solvers Three dimensional Three dimensional models Waveforms
Title	Laplace-domain waveform modeling and inversion for the 3D acoustic–elastic coupled media
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