The land seismic data suffers from effects due to the near surface irregularities and the existence of topography. For obtaining a high resolution seismic image, these effects should be corrected by using seismic processing techniques, e.g. field and residual static corrections. The Common-Reflection-Surface (CRS) stack method is a new processing technique to simulate zero-offset (ZO) seismic sections from multi-coverage seismic data. It is based on a second-order hyperbolic paraxial traveltime approximation referred to a central normal ray. By considering a planar measurement surface, the CRS stacking operator is defined by means of three parameters, namely the emergence angle of the normal ray, the curvature of the normal incidence point ...
The seismic method is a well known technique for revealing details of the geological subsurface stru...
We applied the NMO and CRS (Common Reflector Surface) approaches to a complex geological area in ord...
This paper summarizes practical results of a consistent attention to the seismic processing and inte...
Seismic stacking is a method designed to simulate zero-offset (ZO) seismic sections from multi-cove...
We applied the NMO and CRS (Common Reflector Surface) approaches to a complex geological area in ord...
The simulation of a zero-offset seismic (ZO) section from multicoverage, through of stack, is a very...
The Common Reflection Surface Stack (CRS) is a seismic reflection imaging technique that is independ...
The Common-Reflection-Surface (CRS) stack is a new seismic processing method for simulating zero-off...
The simulation of a zero-offset seismic section (ZO) from multicoverage data can be carried through ...
Land data acquisition often suffers from rough top-surface topography and complicated near-surface c...
The Common-Reflection-Surface (CRS) stacking method was originally introduced as a data-driven metho...
Increasingly challenging exploration targets with respect to the geological complexity and data qual...
We developed a new partial common-reflection-surface (CRS) stacking method to enhance the quality o...
Commonly seismic images are displayed in time domain because the model in depth can be known only in...
Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)The Common-Reflection-Surface (C...
The seismic method is a well known technique for revealing details of the geological subsurface stru...
We applied the NMO and CRS (Common Reflector Surface) approaches to a complex geological area in ord...
This paper summarizes practical results of a consistent attention to the seismic processing and inte...
Seismic stacking is a method designed to simulate zero-offset (ZO) seismic sections from multi-cove...
We applied the NMO and CRS (Common Reflector Surface) approaches to a complex geological area in ord...
The simulation of a zero-offset seismic (ZO) section from multicoverage, through of stack, is a very...
The Common Reflection Surface Stack (CRS) is a seismic reflection imaging technique that is independ...
The Common-Reflection-Surface (CRS) stack is a new seismic processing method for simulating zero-off...
The simulation of a zero-offset seismic section (ZO) from multicoverage data can be carried through ...
Land data acquisition often suffers from rough top-surface topography and complicated near-surface c...
The Common-Reflection-Surface (CRS) stacking method was originally introduced as a data-driven metho...
Increasingly challenging exploration targets with respect to the geological complexity and data qual...
We developed a new partial common-reflection-surface (CRS) stacking method to enhance the quality o...
Commonly seismic images are displayed in time domain because the model in depth can be known only in...
Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)The Common-Reflection-Surface (C...
The seismic method is a well known technique for revealing details of the geological subsurface stru...
We applied the NMO and CRS (Common Reflector Surface) approaches to a complex geological area in ord...
This paper summarizes practical results of a consistent attention to the seismic processing and inte...