We developed a new partial common-reflection-surface (CRS) stacking method to enhance the quality of sparse lowfold seismic data. For this purpose, we use kinematic wavefield attributes computed during the automatic CRS stack. We apply a multiparameter CRS traveltime formula to compute partial stacked CRS supergathers. Our algorithm allows us to generate NMO-uncorrected gathers without the application of inverse NMO/DMO. Gathers obtained by this approach are regularized and have better signal-to-noise ratio compared with original common-midpoint gathers. Instead of the original data, these improved prestack data can be used in many conventional processing steps, e.g., velocity analysis or prestack depth migration, providing enha...
A modified version of the CRS stacking method based on diffraction moveouts with different midpoint ...
Seismic exploration in hard rock environments is challenging due to complex geological conditions th...
We analyzed the feasibility of the common-reflection-surface (CRS) stack for near-surface surveys a...
A processing workflow was introduced for reflection seismic data that is based entirely on common-re...
Land data acquisition often suffers from rough top-surface topography and complicated near-surface c...
Stacking velocity analysis and stacking is usually performed within common-midpoint gathers. General...
The Common-Reflection-Surface (CRS) stack is a new seismic processing method for simulating zero-off...
Commonly seismic images are displayed in time domain because the model in depth can be known only in...
Increasingly challenging exploration targets with respect to the geological complexity and data qual...
Stacking velocities must be determined with extraordinary emphasis to obtain good sections, correctl...
Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)The Common-Reflection-Surface (C...
The land seismic data suffers from effects due to the near surface irregularities and the existence ...
The common-reflection-surface (CRS) stack can be viewed as a physically justified extension of the c...
Commonly seismic images are displayed in time domain because the model in depth can be known only in...
The Common-Reflection-Surface (CRS) stacking method was originally introduced as a data-driven metho...
A modified version of the CRS stacking method based on diffraction moveouts with different midpoint ...
Seismic exploration in hard rock environments is challenging due to complex geological conditions th...
We analyzed the feasibility of the common-reflection-surface (CRS) stack for near-surface surveys a...
A processing workflow was introduced for reflection seismic data that is based entirely on common-re...
Land data acquisition often suffers from rough top-surface topography and complicated near-surface c...
Stacking velocity analysis and stacking is usually performed within common-midpoint gathers. General...
The Common-Reflection-Surface (CRS) stack is a new seismic processing method for simulating zero-off...
Commonly seismic images are displayed in time domain because the model in depth can be known only in...
Increasingly challenging exploration targets with respect to the geological complexity and data qual...
Stacking velocities must be determined with extraordinary emphasis to obtain good sections, correctl...
Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)The Common-Reflection-Surface (C...
The land seismic data suffers from effects due to the near surface irregularities and the existence ...
The common-reflection-surface (CRS) stack can be viewed as a physically justified extension of the c...
Commonly seismic images are displayed in time domain because the model in depth can be known only in...
The Common-Reflection-Surface (CRS) stacking method was originally introduced as a data-driven metho...
A modified version of the CRS stacking method based on diffraction moveouts with different midpoint ...
Seismic exploration in hard rock environments is challenging due to complex geological conditions th...
We analyzed the feasibility of the common-reflection-surface (CRS) stack for near-surface surveys a...