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Impacts of Previous HitAcquisitionNext Hit Footprint Analysis on Thin Bed Edge Detection Attributes

Inanli, Burcin1, Kurt Marfurt2, and Bob Wiley2
1 Thelen Associates Inc., Cincinnati, OH
2 University of Houston, Houston, TX

Seismic data quality is impacted not only by fold, but also by the distribution of source-receiver offsets and azimuths that make up this fold. The impact of the seismic Previous HitacquisitionNext Hit program on processing and on the quality of the final image is commonly called Previous HitacquisitionNext Hit footprint. The seismic Previous HitacquisitionNext Hit program impacts the quality of the subsurface image in several ways, the most fundamental of which is subsurface illumination. A more subtle impact of the seismic Previous HitacquisitionNext Hit program, and the object of this work, is the variation of amplitude and signal to noise ratio as a function of illumination angle and the rejection of coherent noise.

The Previous HitacquisitionNext Hit footprint signature of Previous HitlandNext Hit Previous HitacquisitionNext Hit program as well as obstacles is well known, through not necessarily well treated at this time. The impact of more recent advances in seismic Previous HitacquisitionNext Hit, including using an increasing number of marine streamers, vertical cables, and ocean bottom cables are less well known. The impact of Previous HitacquisitionNext Hit footprint on seismic attribute analysis has been barely addressed.

To understand the behaviors and impacts of different marine surveys on Previous HitacquisitionNext Hit footprint analysis, I acquired 3-D multi-streamer marine data over a physical model made of simple homogenous and isotropic multi horizontal layers consisting of complex channel structures. In this work, not only the impacts of Previous HitacquisitionTop footprint on seismic attributes will be addressed, but also illumination of thin-bedded channel structures will be focused by employing conventional processing methods and suite of different migration algorithms.

AAPG Search and Discovery Article #90031©2004 AAPG Eastern Section Meeting, Columbus, Ohio, October 3-5, 2004