Laplace–Fourier-Domain Waveform Inversion for Fluid–Solid Media

Full waveform inversion algorithms are widely used in the construction of subsurface velocity models. In the following study, we propose a Laplace–Fourier-domain waveform inversion algorithm that uses both Laplace-domain and Fourier-domain wavefields to achieve the reconstruction of subsurface veloc...

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Veröffentlicht in:	Pure and applied geophysics Jg. 169; H. 12; S. 2165 - 2179
Hauptverfasser:	Kang, Seung-Goo, Bae, Ho Seuk, Shin, Changsoo
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	Basel SP Birkhäuser Verlag Basel 01.12.2012 Springer Springer Nature B.V
Schlagworte:	Algorithms Applied geophysics Construction Earth and Environmental Science Earth Sciences Earth, ocean, space Exact sciences and technology Fourier analysis Geophysics Geophysics/Geodesy Internal geophysics Inversions Marine environment Marine geology Media Seismic exploration Seismic phenomena Submarines Wave velocity Waveform analysis Waveforms Laplace–Fourier-domain complex frequency band waveform inversion fluid–solid media algorithms models inverse problem exploration velocity structure fluid-solid media topography S-waves pressure velocity subsurface frequency marine environment Laplace―Fourier-domain strategy waveforms
ISSN:	0033-4553, 1420-9136
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Abstract	Full waveform inversion algorithms are widely used in the construction of subsurface velocity models. In the following study, we propose a Laplace–Fourier-domain waveform inversion algorithm that uses both Laplace-domain and Fourier-domain wavefields to achieve the reconstruction of subsurface velocity models. Although research on the Laplace–Fourier-domain waveform inversion has been published recently that study is limited to fluid media. Because the geophysical targets of marine seismic exploration are usually located within solid media, waveform inversion that is approximated to acoustic media is limited to the treatment of properly identified submarine geophysical features. In this study, we propose a full waveform inversion algorithm for isotropic fluid–solid media with irregular submarine topography comparable to a real marine environment. From the fluid–solid system, we obtained P and S wave velocity models from the pressure data alone. We also suggested strategies for choosing complex frequency bands constructed of frequencies and Laplace coefficients to improve the resolution of the restored velocity structures. For verification, we applied our Laplace–Fourier-domain waveform inversion for fluid–solid media to synthetic data that were reconstructed for fluid–solid media. Through this inversion test, we successfully restored reasonable velocity structures. Furthermore, we successfully extended our algorithm to a field data set.
AbstractList	Full waveform inversion algorithms are widely used in the construction of subsurface velocity models. In the following study, we propose a Laplace–Fourier-domain waveform inversion algorithm that uses both Laplace-domain and Fourier-domain wavefields to achieve the reconstruction of subsurface velocity models. Although research on the Laplace–Fourier-domain waveform inversion has been published recently that study is limited to fluid media. Because the geophysical targets of marine seismic exploration are usually located within solid media, waveform inversion that is approximated to acoustic media is limited to the treatment of properly identified submarine geophysical features. In this study, we propose a full waveform inversion algorithm for isotropic fluid–solid media with irregular submarine topography comparable to a real marine environment. From the fluid–solid system, we obtained P and S wave velocity models from the pressure data alone. We also suggested strategies for choosing complex frequency bands constructed of frequencies and Laplace coefficients to improve the resolution of the restored velocity structures. For verification, we applied our Laplace–Fourier-domain waveform inversion for fluid–solid media to synthetic data that were reconstructed for fluid–solid media. Through this inversion test, we successfully restored reasonable velocity structures. Furthermore, we successfully extended our algorithm to a field data set. Full waveform inversion algorithms are widely used in the construction of subsurface velocity models. In the following study, we propose a Laplace-Fourier-domain waveform inversion algorithm that uses both Laplace-domain and Fourier-domain wavefields to achieve the reconstruction of subsurface velocity models. Although research on the Laplace-Fourier-domain waveform inversion has been published recently that study is limited to fluid media. Because the geophysical targets of marine seismic exploration are usually located within solid media, waveform inversion that is approximated to acoustic media is limited to the treatment of properly identified submarine geophysical features. In this study, we propose a full waveform inversion algorithm for isotropic fluid-solid media with irregular submarine topography comparable to a real marine environment. From the fluid-solid system, we obtained P and S wave velocity models from the pressure data alone. We also suggested strategies for choosing complex frequency bands constructed of frequencies and Laplace coefficients to improve the resolution of the restored velocity structures. For verification, we applied our Laplace-Fourier-Domain Waveform Inversion for Fluid-Solid Media to synthetic data that were reconstructed for fluid-solid media. Through this inversion test, we successfully restored reasonable velocity structures. Furthermore, we successfully extended our algorithm to a field data set.[PUBLICATION ABSTRACT]
Author	Bae, Ho Seuk Shin, Changsoo Kang, Seung-Goo
Author_xml	– sequence: 1 givenname: Seung-Goo surname: Kang fullname: Kang, Seung-Goo organization: Department of Energy Systems Engineering, Seoul National University – sequence: 2 givenname: Ho Seuk surname: Bae fullname: Bae, Ho Seuk email: belfre@hanmail.net organization: Agency for Defense Development – sequence: 3 givenname: Changsoo surname: Shin fullname: Shin, Changsoo organization: Department of Energy Systems Engineering, Seoul National University
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Keywords	Laplace–Fourier-domain complex frequency band waveform inversion fluid–solid media algorithms models inverse problem exploration velocity structure fluid-solid media topography S-waves pressure velocity subsurface frequency marine environment Laplace―Fourier-domain strategy waveforms
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Snippet	Full waveform inversion algorithms are widely used in the construction of subsurface velocity models. In the following study, we propose a...
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SubjectTerms	Algorithms Applied geophysics Construction Earth and Environmental Science Earth Sciences Earth, ocean, space Exact sciences and technology Fourier analysis Geophysics Geophysics/Geodesy Internal geophysics Inversions Marine environment Marine geology Media Seismic exploration Seismic phenomena Submarines Wave velocity Waveform analysis Waveforms
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Title	Laplace–Fourier-Domain Waveform Inversion for Fluid–Solid Media
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