TY - GEN
T1 - A new approach for multiple attenuation using MultiFocusing technology
AU - Rauch-Davies, Marianne
AU - Berkovitch, Alex
AU - Deev, Kostya
AU - Landa, Evgeny
N1 - Publisher Copyright:
© 2013 SEG Houston 2013 Annual Meeting.
PY - 2013
Y1 - 2013
N2 - The removal of multiples energy on seismic data has been a major issue on many off-shore datasets worldwide. The primary advantage of MultiFocusing (MF) is the enhancement of the signal-to-noise ratio of both stacked sections and prestack data through stacking a much larger number of traces than in conventional CMP processing. We present a modification of the MF-based approach when multiples are recognized directly in the MF attribute domain. First, they are predicted according to MF wavefront parameters and then they are subtracted using an adaptive least squares method. The key elements of the proposed procedure are the MF attributes. We identify and predict the multiples in the MF attribute domain through interpretation of the RMS velocity and emergence angle panels, which are determined from the pre-stack data during the MF multidimensional analysis. We then calculated the offset traveltimes for the multiples using the identified MF attributes and compute a multiple model based on the partial coherent summation of the original data along the predicted traveltime surfaces. For the final stage, we adaptively subtract the predicted multiples from the original data using a least squares adaptive subtraction procedure similar to SRME-type multiple attenuation methodology. We show an application of the proposed on a real data example. The technology was successfully implemented for both 2D and 3D seismic data.
AB - The removal of multiples energy on seismic data has been a major issue on many off-shore datasets worldwide. The primary advantage of MultiFocusing (MF) is the enhancement of the signal-to-noise ratio of both stacked sections and prestack data through stacking a much larger number of traces than in conventional CMP processing. We present a modification of the MF-based approach when multiples are recognized directly in the MF attribute domain. First, they are predicted according to MF wavefront parameters and then they are subtracted using an adaptive least squares method. The key elements of the proposed procedure are the MF attributes. We identify and predict the multiples in the MF attribute domain through interpretation of the RMS velocity and emergence angle panels, which are determined from the pre-stack data during the MF multidimensional analysis. We then calculated the offset traveltimes for the multiples using the identified MF attributes and compute a multiple model based on the partial coherent summation of the original data along the predicted traveltime surfaces. For the final stage, we adaptively subtract the predicted multiples from the original data using a least squares adaptive subtraction procedure similar to SRME-type multiple attenuation methodology. We show an application of the proposed on a real data example. The technology was successfully implemented for both 2D and 3D seismic data.
UR - http://www.scopus.com/inward/record.url?scp=85058135065&partnerID=8YFLogxK
U2 - 10.1190/segam2013-0790.1
DO - 10.1190/segam2013-0790.1
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AN - SCOPUS:85058135065
SN - 9781629931883
T3 - Society of Exploration Geophysicists International Exposition and 83rd Annual Meeting, SEG 2013: Expanding Geophysical Frontiers
SP - 4106
EP - 4110
BT - Society of Exploration Geophysicists International Exposition and 83rd Annual Meeting, SEG 2013
PB - Society of Exploration Geophysicists
T2 - Society of Exploration Geophysicists International Exposition and 83rd Annual Meeting: Expanding Geophysical Frontiers, SEG 2013
Y2 - 22 September 2013 through 27 September 2013
ER -