The surface-related multiple elimination (SRME) method has proven to be successful on a large number of data cases. Most of the applications are still 2D, as the full 3D implementation is still expensive and under development. However, the earth is a 3D medium, such that 3D effects are difficult to avoid. Most of the 3D effects come from diffractive structures, whereas the specular reflections normally have less of a 3D behavior. By separating the seismic data in a specular reflecting and a diffractive part, multiple prediction can be carried out with these different subsets of the input data, resulting in several categories of predicted multiples. Because each category of predicted multiples can be subtracted from the input data with diffe...
Multiple often and always appear in marine seismic data due to very high acoustic impedance contrast...
The process of obtaining high quality seismic images is very challenging when exploring new areas th...
An important task in seismic data processing is the identification and subsequent suppression of mul...
The surface-related multiple elimination (SRME) method has proven to be successful on a large number...
Surface-related multiple elimination (SRME) is an algorithm that predicts all surface multiples by a...
International audienceThe suppression of multiples is a crucial task when processing seismic reflect...
International audienceThe suppression of multiples is a crucial task when processing seismic reflect...
Multiple attenuation is a crucial phase in the processing of marine seismic data. In specific, free ...
Current multiple-removal algorithms in seismic processing use either differential moveout or predict...
Abstract: For seismic exploration acoustic sources and receivers are relatively densely positioned a...
A very important aspect of removing multiples from seismic data is accurate prediction of their kine...
It is not always realized that the earth’s surface is the main multiple generator. In the method des...
Surface Related Multiple Elimination (SRME) usually suffers the issue of either over-attenuation tha...
Predictive multiple suppression methods consist of two main steps: a prediction step, in which mult...
Predictive multiple suppression methods consist of two main steps: a prediction step, in which multi...
Multiple often and always appear in marine seismic data due to very high acoustic impedance contrast...
The process of obtaining high quality seismic images is very challenging when exploring new areas th...
An important task in seismic data processing is the identification and subsequent suppression of mul...
The surface-related multiple elimination (SRME) method has proven to be successful on a large number...
Surface-related multiple elimination (SRME) is an algorithm that predicts all surface multiples by a...
International audienceThe suppression of multiples is a crucial task when processing seismic reflect...
International audienceThe suppression of multiples is a crucial task when processing seismic reflect...
Multiple attenuation is a crucial phase in the processing of marine seismic data. In specific, free ...
Current multiple-removal algorithms in seismic processing use either differential moveout or predict...
Abstract: For seismic exploration acoustic sources and receivers are relatively densely positioned a...
A very important aspect of removing multiples from seismic data is accurate prediction of their kine...
It is not always realized that the earth’s surface is the main multiple generator. In the method des...
Surface Related Multiple Elimination (SRME) usually suffers the issue of either over-attenuation tha...
Predictive multiple suppression methods consist of two main steps: a prediction step, in which mult...
Predictive multiple suppression methods consist of two main steps: a prediction step, in which multi...
Multiple often and always appear in marine seismic data due to very high acoustic impedance contrast...
The process of obtaining high quality seismic images is very challenging when exploring new areas th...
An important task in seismic data processing is the identification and subsequent suppression of mul...