Rob Hegge scite author profile

Rob Hegge

5Publications

60Citation Statements Received

61Citation Statements Given

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Affiliations

Saudi Aramco (United States), Petroleum Geo-Services (United Kingdom), Delft University of Technology

Publications

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Robust estimation of primaries by sparse inversion and Marchenko equation-based workflow for multiple suppression in the case of a shallow water layer and a complex overburden: A 2D case study in the Arabian Gulf

Staring

Dukalski²,

Belonosov³

et al. 2021

GEOPHYSICS

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Suppression of surface-related and internal multiples is an outstanding challenge in seismic data processing. The former is particularly difficult in shallow water, whereas the latter is problematic for targets buried under complex, highly scattering overburdens. We propose a two-step, amplitude- and phase-preserving, inversion-based workflow, which addresses these problems. We apply Robust Estimation of Primaries by Sparse Inversion (R-EPSI) to suppress the surface-related multiples and solve for the source wavelet. A significant advantage of the inversion approach of the R-EPSI method is that it does not rely on an adaptive subtraction step that typically limits other de-multiple methods such as SRME. The resulting Green's function is used as input to a Marchenko equation-based approach to predict the complex interference pattern of all overburden-generated internal multiples at once, without a priori subsurface information. In theory, the interbed multiples can be predicted with correct amplitude and phase and, again, no adaptive filters are required. We illustrate this workflow by applying it on an Arabian Gulf field data example. It is crucial that all pre-processing steps are performed in an amplitude preserving way to restrict any impact on the accuracy of the multiple prediction. In practice, some minor inaccuracies in the processing flow may end up as prediction errors that need to be corrected for. Hence, we decided that the use of conservative adaptive filters is necessary to obtain the best results after interbed multiple removal. The obtained results show promising suppression of both surface-related and interbed multiples.

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CFP operator estimation and inversion demonstrated on a field data set ‐ Part I: operator updating

Bolte¹,

Verschuur²,

Hegge³

1999

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Estimation of primaries by sparse inversion using dual‐sensor data

Baardman

Verschuur

Borselen³

et al. 2010

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Using focusing operators to estimate velocity models

Hegge¹,

Fokkema²,

Duijndam³

1998

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Velocity model estimation by inversion of focusing operators

Hegge

1997

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Rob Hegge

Robust estimation of primaries by sparse inversion and Marchenko equation-based workflow for multiple suppression in the case of a shallow water layer and a complex overburden: A 2D case study in the Arabian Gulf

CFP operator estimation and inversion demonstrated on a field data set ‐ Part I: operator updating

Estimation of primaries by sparse inversion using dual‐sensor data

Using focusing operators to estimate velocity models

Velocity model estimation by inversion of focusing operators

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