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Very high resolution 3D marine seismic data processing for geotechnical applications
Marsset, B.; Missiaen, T.; de Roeck, Y-H.; Noble, M.; Versteeg, W.; Henriet, J.P. (1998). Very high resolution 3D marine seismic data processing for geotechnical applications. Geophys. Prospect. 46(2): 105-120
In: Geophysical Prospecting. Blackwell: Oxford. ISSN 0016-8025; e-ISSN 1365-2478, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Trefwoorden
    3 dimensional
    Data > Geophysical data > Seismic data
    Data > Geotechnical data
    Data processing
    Marien/Kust

Auteurs  Top 
  • Marsset, B.
  • Missiaen, T., meer
  • de Roeck, Y-H.
  • Noble, M.
  • Versteeg, W., meer
  • Henriet, J.P., meer

Abstract
    The processing of a small-scale, very high resolution (VHR) shallow marine 3D data volume is described. The data were acquired over a small clay diapir, on the river Schelde, in 1990. Using an array of 12 dual-channel microstreamers towed from a catamaran, a network of 1 m × 1 m bins could be produced over an area of 50 m × 180 m (< 100 m penetration). Positioning was performed with an auto-tracking laser ranging system, assuring an absolute accuracy of a few decimetres.Preliminary processing steps included tidal correction and multiple removal. An important step concerned the application of 3D prestack Kirchhoff depth migration. Indeed this processing allows easy handling of the exact positions of both source and receivers as the latter were not set out on a conventional regular grid due to navigation difficulties. Because of the restricted data volume and the more-or-less stratified medium, a 1D velocity model could be used. This allowed a considerable simplification of the migration algorithm, based on summation. Traveltimes were calculated only once, using a 2D time grid with 0.1 m intervals.This migration method proved very efficient, greatly improving the seismic image, and involved only limited CPU time on a small computer (Sparc 10 workstation). It clearly demonstrates that advanced seismic processing can form a valuable and economically feasible tool for VHR shallow subsurface 3D seismics, as long as the velocity field is not too complex. This method should therefore no longer be restricted to large computers and hydrocarbon exploration, but should also become a routine for VHR 3D shallow seismic work.

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