1887
24th International Geophysical Conference and Exhibition – Geophysics and Geology Together for Discovery
  • ISSN: 2202-0586
  • E-ISSN:

Abstract

The high costs associated with hydrocarbon exploration in deepwater have led to an increased business demand for acquisition and processing of high-resolution broadband seismic data. In this paper, we review our experience of working on the Shell Sandman 3D survey, which was acquired using variable-depth streamers and synchronized multi-level sources. We focus on the key factors that influence the surface seismic temporal resolution and the technologies that provide solutions to these challenges: (1) source deghosting using source designature with near-field hydrophone data; (2) receiver deghosting using the 3D deghosting algorithm; and (3) compensation for the Earth absorption using centroid frequency shift Q tomography (FS-QTOMO) and QPSDM. The extra-wide bandwidth obtained from these processes provides a final image with detailed resolution that enhances quantitative characterization, not only for shallow geo-hazards but also for resolving relatively thin reservoirs in the deep section. Therefore, we can conclude that broadband seismic methodologies coupled with advanced seismic processing techniques, provide an effective solution for generating high-resolution seismic images, especially in challenging areas.

© 2015 ASEG
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/content/journals/10.1071/ASEG2015ab081
2015-12-01
2026-01-13

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References

  1. Denis, M., Brem, V., Pradalie, F., Moinet, F., Retailleau, M., Langlois, J., Bai, B., Taylor, R., Chamberlain, V., and Frith, I., 2013, Can land broadband seismic be as good as marine broadband?: The Leading Edge, 32(11), 1382-1388.
  2. Poole, G., Davison, C., Deeds, J., Davies K., and Hampson, G., 2013, Shot-to-shot directional designature using near-field hydrophone data: SEG Technical Program Expanded Abstracts 2013, 4236-4240.
  3. Siliqi, R., Payen, T., Sablon, R., and Desrues, K., 2013, Synchronized multi-level source, a robust broadband marine solution: SEG Technical Program Expanded Abstracts 2013, 56-60.
  4. Soubaras, R., 2010, Deghosting by joint deconvolution of a migration and a mirror migration: SEG Technical Program Expanded Abstracts 2010, 3406-3410.
  5. Wang, P., and Peng, C., 2012, Premigration deghosting for marine towed streamer data using a bootstrap approach: SEG Technical Program Expanded Abstracts 2012, 1-5.
  6. Wang, P., Ray, S., Peng, C., Li, Y., and Poole, G., 2013, Premigration deghosting for marine streamer data using a bootstrap approach in Tau-P domain: 75th EAGE Conference & Exhibition incorporating SPE EUROPEC 2013
  7. Xie, Y., Xin, K., Sun, J., Notfors, C., Biswal, A., and Balasubramaniam, M., 2009, 3D prestack depth migration with compensation for frequency dependent absorption and dispersion: SEG Technical Program Expanded Abstracts 2009, 2919-2923.
  8. Xin, K., He, Y., and Xie, Y., 2014, Robust Q tomographic inversion through adaptive extraction of spectral features: EAGE 2014 amsterdam (accepted)
  9. Ziolkowski, A., Parkes, G.E., Hatton, L. and Haugland, T., 1982, The signature of an airgun array: computation from near-field measurements including interactions: Geophysics, 47, 1413-1421.
/content/journals/10.1071/ASEG2015ab081
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  • Article Type: Research Article
Keyword(s): broadband; deghost; near-field hydrophone; Q tomography; QPSDM

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