AccScience Publishing / JSE / Volume 33 / Issue 5 / DOI: 10.36922/JSE024450001
Submit to JSE
Cite this article
2
Download
5
Citations
23
Views
Journal Browser
Volume | Year
Issue
Search
Forthcoming Issue
Current Issue
View All
News and Announcements
View All
ARTICLE

FREQUENCY DOMAIN ACOUSTIC WAVE FULL WAVEFORM INVERSION BASED ON AVERAGEDERIVATIVE OPTIMIZATION

JIANGGUI ZHU1 YINGMING QU2 WEIWEI DUAN1 QIANHUI ZHANG1 CHENYING YANG1
Show Less
1 Research and Development Center, Sinopec Geophysical Corporation, Nanjing 211100, P.R. China
2 School of Geosciences, China University of Petroleum, Qingdao 266580, P.R. China
JSE 2024 , 33(5), 21–38; https://doi.org/10.36922/JSE024450001
Submitted: 8 February 2024 | Accepted: 10 November 2024 |
© 2024 by the Author(s). Licensee AccScience Publishing, USA. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution -Noncommercial 4.0 International License (CC BY-NC 4.0) ( https://creativecommons.org/licenses/by-nc/4.0/ )
Download PDF
Cite
XML
HTML
Abstract

Zhu, J.G., Qu, Y.M., Duan, W.W., Zhang, Q.H. and Yang, C.Y., 2023. Frequency domain acoustic wave full waveform inversion based on average-derivative optimization. Journal of Seismic Exploration, 32: 509-508.
Full waveform inversion is a geophysical inversion method. Based on the residuals of observation records and simulation records as the objective function, it combines travel time, amplitude and other information to invert subsurface parameters to achieve high-precision inversion of subsurface media. Seismic wave forward modeling is the key theoretical basis of full waveform inversion, and its accuracy is directly related to subsequent seismic data processing. In the frequency domain, the conventional difference scheme cannot adapt to the situation of unequal spatial sampling intervals. In order to improve the adaptability of the forward modeling algorithm in the frequency domain, this paper deduces a 21-point finitedifference scheme based on the average derivative method, and calculates the difference coefficient and Dispersion condition. The model trial calculation proves that the method is not only suitable for the non-uniform space sampling interval but also improves the operation efficiency. Then, the method in this paper is applied to the full waveform inversion in the
frequency domain. The inversion effect of the method is verified by the Marmousi model, which can effectively restore the underground structure in the Marmousi model, especially for the subtle underground structure, and the inversion results are more accurate, fine and accurate.

Keywords
frequency domain
average derivative
forward modeling
acoustic wave
full waveform inversion.
References
  1. Berenger, J., 1994. A perfectly matched layer for the absorption of electromagnetic waves. J. Computat. Phys., 114: 185-200.
  2. Brossier, R., Operto, S. and Virieux, J., 2009. Seismic imaging of complex onshore structures by 2D elastic frequency-domain full-waveform inversion. Geophysics,74(6): WCC105-WCC118.
  3. Chen, J., 2012. An average-derivative optimal scheme for frequency-domain scalar wave equation. Geophysics, 77(6): T201-T210.
  4. Chen, J., 2013. A generalized optimal 9-point scheme for frequency-domain scalar wave equation. Journal of Applied Geophysics, 92, 1-7.
  5. Chu, C. and Stoffa, P.L., 2012. Nonuniform grid implicit spatial finite difference method for acoustic wave modeling in tilted transversely isotropic media. J. Appl. Geophys., 76:44-49.
  6. Claerbout, J.F., 1971. Toward a unified theory of reflector mapping. Geophysics, 36: 467-481.
  7. Hu, W., Abubakar, A. and Habashy, T.M., 2019. Simultaneous multifrequency inversion of full-waveform seismic data. Geophysics, 74(2): R1-R14.
  8. Hu, W., Abubakar, A., Habashy, T.M. and Liu, J., 2011. Preconditioned non-linear conjugate gradient method for frequency domain full-waveform seismic inversion. Geophysical Prospecting, 59(3), 477-491.
  9. Jang, U., Min, D. J. and Shin, C., 2009. Comparison of scaling methods for waveform inversion. Geophys. Prosp., 57: 49-59.
    Kim, W.K. and Min, D.J., 2014. A new parameterization for frequency-domain elastic full waveform inversion for VTI media. J. Appl. Geophys., 109: 88-110.
  10. Komatitsch, D. and Tromp, J., 2003. A Perfectly Matched Layer absorbing boundary condition for the second-order seismic wave equation. Geophys. J. Internat., 154(1):146-153.
  11. Li, M., Wu, G. and Chen, H., 2016. Frequency domain scalar wave forward modeling method based on an average derivative method. Progress in Geophysics (in Chinese), 31(6):2564-2573.
  12. Li, S., Sun, C., Wu, H., Cai, R. and Xu, N., 2021. An optimal finite-difference method based on the elongated stencil for 2D frequency-domain acoustic-wave modeling. Geophysics, 86(6): T523-T541.
  13. Oliveira, S.A.M., 2003. A fourth-order finite-difference method for the acoustic wave equation on irregular grids. Geophysics, 68(2): 672-676.
  14. Oprsal, I. and Zahradnik, J., 1999. Elastic finite-difference method for irregular grids. Geophysics, 64: 240-250.
  15. Pitarka, A., 1999. 3D Elastic finite-difference modeling of seismic motion using staggered grids with nonuniform spacing. Bull. Seismol. Soc. Am., 89: 54-68.
  16. Takekawa, J. and Mikada, H., 2018. A mesh-free finite-difference method for elastic wave propagation in the frequency-domain. Comput. Geosci., 118: 65-78.
  17. Takekawa, J., Mikada, H. and Imamura, N., 2015. A mesh-free method with arbitrary-order accuracy for acoustic wave propagation. Comput. Geosci., 78: 15-25.
  18. Tang, X., Liu, H., Zhang, H., Liu, L. and Wang, Z., 2015. An adaptable 17-point scheme for high-accuracy frequency-domain acoustic wave modeling in 2D constant density media. Geophysics, 80(6): T211-T221.
  19. Tarantola, A., 1984. Inversion of seismic reflection data in the acoustic approximation. Geophysics, 49(8): 1259-1266.
  20. Tarantola, A., 1986. A strategy for nonlinear elastic inversion of seismic reflection data. Geophysics, 51(10): 1893-1903.
  21. Wu, G., Luo, C. and Liang, K., 2007. Frequency-space domain finite difference numerical simulation of elastic wave in TTI media. J. Jilin Univ. (Earth Sci. Ed.). (In Chinese),37(5): 1023-1033.
  22. Zhang, H., Liu, H., Liu, L., Jin, W. and Shi, X., 2014. Frequency domain acoustic equation high-order modeling based on an average-derivative method. Chin. J. Geophys. (in Chinese), 57(5): 1599-1611.
Next article in this issue
Share
Back to top
Journal of Seismic Exploration, Electronic ISSN: 0963-0651 , Published by AccScience Publishing
We use cookies on our website to ensure you get the best experience.
Read more about our cookies here
Accept