Journal Article10.1190/1.1439582
A new data-processing technique for multiple attenuation exploiting differential normal moveout
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TL;DR: In this paper, a new data processing technique is presented which utilizes optimum multichannel digital filtering in conjunction with common subsurface horizontal stacking for the efficient rejection of multiple reflections.
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Abstract: A new data‐processing technique is presented which utilizes optimum multichannel digital filtering in conjunction with common subsurface horizontal stacking for the efficient rejection of multiple reflections. The method exploits the differential normal moveout between primary and multiple reflections that results from an increase in average velocity with depth. Triple subsurface coverage is obtained in the field; the common subsurface traces are individually prefiltered with different filters and stacked. The digital filters are designed on the least‐mean‐square‐error criteria to preserve primaries (signal) in the presence of multiples (noise) of predictable normal moveout, and random noise. The method achieves wide‐band separation of primary and multiple energy with only a three‐point stack; it can work effectively with small normal moveout differences eliminating the need for long offsets and the attendant signal degradation due to wide‐angle reflections; it does not require equal multiple moveout on t...
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Citations
A construct of internal multiples from surface data only: the concept of virtual seismic events
TL;DR: In this article, the authors proposed a method to construct internal multiples from surface seismic data using the concept of virtual seismic events, which are not directly recorded in standard seismic data acquisition, but their existence allows the construction internal multiple with scattering points at the sea surface.
Principles of Digital Multichannel Filtering
TL;DR: In this article, the response function of a single-channel digital filter can be specified in terms of scalar-valued weighting coefficients, while the corresponding response function for a multichannel filter is more conveniently described by matrix-valued weighted coefficients.
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Dynamic Correlation Analysis
TL;DR: In this paper, a computer analysis technique is described for use in conjunction with reflection seismic data shot for conventional common depth point (CDP) stacking, with the objective of providing a space-time variant measure of the energy relationships among CDP traces.
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Multiple attenuation in the parabolic τ-p domain using wavefront characteristics of multiple generating primaries
TL;DR: In this article, a 2D method for attenuation of both surface-related and interbed multiples in the parabolic τ-p domain is proposed, which is based on the prediction of a multiple model from the wavefront characteristics of the primary events.
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Patent
Method of removing records of multiple reflection events from seismic data
Stewart A. Levin
- 16 Jul 1990
TL;DR: In this article, a shallow primary reflection event is used as a model for a deeper primary, and is distorted responsive to the predicted static correction to yield a model of the multiple reflection events.
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