A theoretical overview of model-based and correlation-based redatuming methods

Gerard Schuster*, Min Zhou

*Corresponding author for this work

Research output: Contribution to journalReview articlepeer-review

120 Scopus citations

Abstract

We review the equations for correlation-based redatuming methods. A correlation-based redatuming method uses natural-phase information in the data to time shift the weighted traces so they appear to be generated by sources (or recorded by geophones) shifted to a new location. This compares to model-based redatuming, which effectively time shifts the traces using traveltimes computed from a prior velocity model. For wavefield redatuming, the daylight imaging, interferometric imaging, reverse-time acoustics (RTA), and virtual-source methods all require weighted correlation of the traces with one another, followed by summation over all sources (and sometimes receivers). These methods differ from one another by their choice of weights. The least-squares interferometry and virtual-source imaging methods are potentially the most powerful because they account for the limited source and receiver aperture of the recording geometry. Interferometry, on the other hand, has the flexibility to select imaging conditions that target almost any type of event. Stationary-phase principles lead to a Fermat-based redatuming method known as redatuming by a seminatural Green's function. No crosscorrelation is needed, so it is less expensive than the other methods. Finally, Fermat's principle can be used to redatum traveltimes.

Original languageEnglish (US)
JournalGeophysics
Volume71
Issue number4
DOIs
StatePublished - Jan 1 2006

Keywords

  • Correlation methods
  • Geophysical techniques
  • Imaging
  • Interferometry
  • Seismic waves
  • Seismology

ASJC Scopus subject areas

  • Geochemistry and Petrology

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