1887

Abstract

Summary

Shallow marine seismic acquisitions are widely used for geohazard seismic assessments, platform site surveys, top-well drilling site investigations, 4D reservoir characterization and other studies.

Modern shallow marine seismic acquisition approaches require complex state-of-art processing techniques. Broadband frequency range, short offsets, shallow towing of receiver spread and other data acquisition aspects complicates data processing significantly. In the article we will consider high resolution shallow seismic marine statics, deghosting, designature, multiple elimination and 3D regularization aspects, required to cover all shortcomings, related to the acquisition aspects.

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/content/papers/10.3997/2214-4609.201800483
2018-04-23
2020-06-03
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References

  1. Claerbout, J., Guitton, A.
    , [2015]. Ricker-Compliant Deconvolution: Geophysical Prospecting, Volume 63, Issue 3, pages 615–625
    [Google Scholar]
  2. VakulenkoS.A, BuryakS.V., GofrnanP.A. and FinikovD.B.
    , [2014]. Deghosting of High Resolution Marine Seismic Data by Adaptive Filtering Algorithm. Near Surface Geoscience - First Applied Shallow Marine Geophysics Conference
    [Google Scholar]
  3. Vakulenko, S.A, Poluboyarinov, M.A., and Buryak, S.V.
    [2016]. Implementation and Application of Debbubling Algorithm, Based on Kolmogorov Spectral Factorization. Near Surface Geoscience 2016 - Second Applied Shallow Marine Geophysics Conference, EAGE
    [Google Scholar]
  4. WardellN., DiviaccoP., SinceriR.
    [2002]. 3D pre-processing techniques for marine VHR seismic data. First break volume 20.7
    [Google Scholar]
  5. БочароваА.А., ПолубояриновМ.А., БурякС.В., ТокаревМ.Ю.
    [2011] Подавление кратных волн и волн-спутников на морских одноканальных данных методом устойчивого адаптивного вычитания. Инженерная геофизика, 2011
    [Google Scholar]
  6. ГофманП.А., ФиниковД.Б.
    [2014] Подавление волн-спутников методом адаптивной рекурсивной фильтрации. Конференция «Технологии сейсморазведки», Москва, 2014г
    [Google Scholar]
  7. Claerbout, J., Guitton, A.
    , [2015]. Ricker-Compliant Deconvolution: Geophysical Prospecting, Volume 63, Issue 3, pages 615–625
    [Google Scholar]
  8. VakulenkoS.A, BuryakS.V., GofmanP.A. and FinikovD.B.
    , [2014]. Deghosting of High Resolution Marine Seismic Data by Adaptive Filtering Algorithm. Near Surface Geoscience - First Applied Shallow Marine Geophysics Conference
    [Google Scholar]
  9. Vakulenko, S.A, Poluboyarinov, M.A., and Buryak, S.V.
    [2016]. Implementation and Application of Debbubling Algorithm, Based on Kolmogorov Spectral Factorization. Near Surface Geoscience 2016 - Second Applied Shallow Marine Geophysics Conference, EAGE
    [Google Scholar]
  10. WardellN., DiviaccoP., SinceriR.
    [2002]. 3D pre-processing techniques for marine VHR seismic data. First break volume 20.7
    [Google Scholar]
  11. Bocharova, A., Poluboyarinov, M., BuryakS., TokarevM.
    [2011]. Deghosting and multiple elimination on single channel marine seismic by robust adaptive subtraction technique. Engineering geophysics conference, 2011
    [Google Scholar]
  12. Gofman, P., Finikov, D.
    , [2014]. Deghosting by adapative subrtraction filtering. Seismic Technologies conference, 2014
    [Google Scholar]
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