Seismic data processing depends on mathematical and statistical tools such as
convolution, crosscorrelation and stack that employ second-order statistics (SOS).
Seismic signals are non-Gaussian and therefore contain information beyond SOS. One of
the modern challenges of seismic data processing is reformulating algorithms e.g.
migration, to utilize the extra higher order statistics (HOS) information in seismic data.
The migration algorithm has two key components: the moveout correction, which
corresponds to the crosscorrelation of the migration operator with the data at zero lag
and the stack of the moveout-corrected data. This study reformulated the standard
migration algorithm to handle the HOS information by improving the stack component,
having assumed that the moveout correction is accurate. The reformulated migration
algorithm outputs not only the standard form of stack, but also the variance, skewness
and kurtosis of moveout-corrected data.
The mean (stack) of the moveout-corrected data in this new concept is equivalent
to the migration currently performed in industry. The variance of moveout-corrected
data is one of the new outputs obtained from the reformulation. Though it characterizes
SOS information, it is not one of the outputs of standard migration. In cases where the
seismic amplitude variation with offset (AVO) response is linear, a single algorithm that outputs mean (stack) and variance combines both the standard AVO analysis and
migration, thereby significantly improving the cost of seismic data processing.
Furthermore, this single algorithm improves the resolution of seismic imaging, since it
does not require an explicit knowledge of reflection angles to retrieve AVO information.
In the reformulation, HOS information is captured by the skewness and kurtosis
of moveout-corrected data. These two outputs characterize nonlinear AVO response and
non-Gaussian noise (symmetric and nonsymmetric) that may be contained in the data.
Skewness characterizes nonsymmetric, non-Gaussian noise, whereas kurtosis
characterizes symmetric, non-Gaussian noise. These outputs also characterize any errors
associated with moveout corrections.
While classical seismic data processing provides a single output, HOS-related
processing outputs three extra parameters i.e. the variance, skewness, and kurtosis.
These parameters can better characterize geological formations and improve the
accuracy of the seismic data processing performed before the application of the
reformulated migration algorithm.
| Identifer | oai:union.ndltd.org:tamu.edu/oai:repository.tamu.edu:1969.1/ETD-TAMU-2973 |
| Date | 15 May 2009 |
| Creators | Greenidge, Janelle Candice |
| Contributors | Ikelle, Luc T. |
| Source Sets | Texas A and M University |
| Language | en_US |
| Detected Language | English |
| Type | Book, Thesis, Electronic Thesis, text |
| Format | electronic, application/pdf, born digital |
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