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Scattered ground‐roll attenuation using model‐driven interferometry
Authors:Phil Bilsby  Lee West  Ed Kragh  John Quigley
Affiliation:1. Schlumberger, Gatwick, West Sussex, RH6 0NZ, United Kingdom;2. Schlumberger Gould Research, High Cross, Madingley Road, CB3 0EL;3. WesternGeco, Gatwick, West Sussex, RH6 0NZ, United Kingdom
Abstract:Scattered ground roll is a type of noise observed in land seismic data that can be particularly difficult to suppress. Typically, this type of noise cannot be removed using conventional velocity‐based filters. In this paper, we discuss a model‐driven form of seismic interferometry that allows suppression of scattered ground‐roll noise in land seismic data. The conventional cross‐correlate and stack interferometry approach results in scattered noise estimates between two receiver locations (i.e. as if one of the receivers had been replaced by a source). For noise suppression, this requires that each source we wish to attenuate the noise from is co‐located with a receiver. The model‐driven form differs, as the use of a simple model in place of one of the inputs for interferometry allows the scattered noise estimate to be made between a source and a receiver. This allows the method to be more flexible, as co‐location of sources and receivers is not required, and the method can be applied to data sets with a variety of different acquisition geometries. A simple plane‐wave model is used, allowing the method to remain relatively data driven, with weighting factors for the plane waves determined using a least‐squares solution. Using a number of both synthetic and real two‐dimensional (2D) and three‐dimensional (3D) land seismic data sets, we show that this model‐driven approach provides effective results, allowing suppression of scattered ground‐roll noise without having an adverse effect on the underlying signal.
Keywords:Noise  Data processing  Seismics, scattered noise, seismic interferometry
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