Chapter 13 Modelling Seismic Wave Propagation for Geophysical Imaging

The Earth is an heterogeneous complex media from the mineral composition scale (10−6m) to the global scale ( 106m). The reconstruction of its structure is a quite challenging problem because sampling methodologies are mainly indirect as potential methods (Günther et al., 2006; Rücker et al., 2006),...

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主要な著者: Tago, J., Cruz-Atienza, V., Chaljub, E., Brossier, R., Coutant, O., Garambois, S., Prieux, V., Operto, S., Mercerat, D., Virieux, J., Ribodetti, A.
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言語:英語
出版事項: InTechOpen 2021
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author Tago, J.
Cruz-Atienza, V.
Chaljub, E.
Brossier, R.
Coutant, O.
Garambois, S.
Prieux, V.
Operto, S.
Mercerat, D.
Virieux, J.
Ribodetti, A.
author_browse Brossier, R.
Chaljub, E.
Coutant, O.
Cruz-Atienza, V.
Garambois, S.
Mercerat, D.
Operto, S.
Prieux, V.
Ribodetti, A.
Tago, J.
Virieux, J.
author_facet Tago, J.
Cruz-Atienza, V.
Chaljub, E.
Brossier, R.
Coutant, O.
Garambois, S.
Prieux, V.
Operto, S.
Mercerat, D.
Virieux, J.
Ribodetti, A.
author_sort Tago, J.
collection Directory of Open Access Books
description The Earth is an heterogeneous complex media from the mineral composition scale (10−6m) to the global scale ( 106m). The reconstruction of its structure is a quite challenging problem because sampling methodologies are mainly indirect as potential methods (Günther et al., 2006; Rücker et al., 2006), diffusive methods (Cognon, 1971; Druskin & Knizhnerman, 1988; Goldman & Stover, 1983; Hohmann, 1988; Kuo & Cho, 1980; Oristaglio & Hohmann, 1984) or propagation methods (Alterman & Karal, 1968; Bolt & Smith, 1976; Dablain, 1986; Kelly et al., 1976; Levander, 1988; Marfurt, 1984; Virieux, 1986). Seismic waves belong to the last category. We shall concentrate in this chapter on the forward problem which will be at the heart of any inverse problem for imaging the Earth. The forward problem is dedicated to the estimation of seismic wavefields when one knows the medium properties while the inverse problem is devoted to the estimation of medium properties from recorded seismic wavefields.
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spelling doab-20.500.12854ir-337222025-05-08T11:21:41Z Chapter 13 Modelling Seismic Wave Propagation for Geophysical Imaging Tago, J. Cruz-Atienza, V. Chaljub, E. Brossier, R. Coutant, O. Garambois, S. Prieux, V. Operto, S. Mercerat, D. Virieux, J. Ribodetti, A. seismic wave geophysical imaging seismic wave geophysical imaging Boundary value problem Finite element method Free surface Frequency domain Seismology Time domain Velocity The Earth is an heterogeneous complex media from the mineral composition scale (10−6m) to the global scale ( 106m). The reconstruction of its structure is a quite challenging problem because sampling methodologies are mainly indirect as potential methods (Günther et al., 2006; Rücker et al., 2006), diffusive methods (Cognon, 1971; Druskin & Knizhnerman, 1988; Goldman & Stover, 1983; Hohmann, 1988; Kuo & Cho, 1980; Oristaglio & Hohmann, 1984) or propagation methods (Alterman & Karal, 1968; Bolt & Smith, 1976; Dablain, 1986; Kelly et al., 1976; Levander, 1988; Marfurt, 1984; Virieux, 1986). Seismic waves belong to the last category. We shall concentrate in this chapter on the forward problem which will be at the heart of any inverse problem for imaging the Earth. The forward problem is dedicated to the estimation of seismic wavefields when one knows the medium properties while the inverse problem is devoted to the estimation of medium properties from recorded seismic wavefields. 2021-02-10T12:58:18Z 2019-10-04 14:41:34 2020-04-01T14:06:32Z 2016-08-01 23:55 2019-10-04 14:41:34 2020-04-01T14:06:32Z 2016-12-31 23:55:55 2019-10-04 14:41:34 2020-04-01T14:06:32Z 2012 chapter 612671 OCN: 1030818907 http://library.oapen.org/handle/20.500.12657/32319 https://directory.doabooks.org/handle/20.500.12854/33722 eng open access image/jpeg image/jpeg image/jpeg image/jpeg image/jpeg n/a n/a n/a n/a n/a https://library.oapen.org/bitstream/20.500.12657/32319/1/612671.pdf https://library.oapen.org/bitstream/20.500.12657/32319/1/612671.pdf https://library.oapen.org/bitstream/20.500.12657/32319/1/612671.pdf https://library.oapen.org/bitstream/20.500.12657/32319/1/612671.pdf https://library.oapen.org/bitstream/20.500.12657/32319/1/612671.pdf InTechOpen 10.5772/1400 10.5772/1400 035ecc65-6737-43cf-a13a-6bdf67ce01f4 Seismic Waves - Research and Analysis FP7 Ideas: European Research Council 7292b17b-f01a-4016-94d3-d7fb5ef9fb79 European Research Council (ERC) EU collection 226837 FP7 open access
spellingShingle seismic wave
geophysical imaging
seismic wave
geophysical imaging
Boundary value problem
Finite element method
Free surface
Frequency domain
Seismology
Time domain
Velocity
Tago, J.
Cruz-Atienza, V.
Chaljub, E.
Brossier, R.
Coutant, O.
Garambois, S.
Prieux, V.
Operto, S.
Mercerat, D.
Virieux, J.
Ribodetti, A.
Chapter 13 Modelling Seismic Wave Propagation for Geophysical Imaging
title Chapter 13 Modelling Seismic Wave Propagation for Geophysical Imaging
title_full Chapter 13 Modelling Seismic Wave Propagation for Geophysical Imaging
title_fullStr Chapter 13 Modelling Seismic Wave Propagation for Geophysical Imaging
title_full_unstemmed Chapter 13 Modelling Seismic Wave Propagation for Geophysical Imaging
title_short Chapter 13 Modelling Seismic Wave Propagation for Geophysical Imaging
title_sort chapter 13 modelling seismic wave propagation for geophysical imaging
topic seismic wave
geophysical imaging
seismic wave
geophysical imaging
Boundary value problem
Finite element method
Free surface
Frequency domain
Seismology
Time domain
Velocity
topic_facet seismic wave
geophysical imaging
seismic wave
geophysical imaging
Boundary value problem
Finite element method
Free surface
Frequency domain
Seismology
Time domain
Velocity
url 612671
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