Recently, a new approach to multiple removal has been introduced: estimation of primaries by sparse inversion (EPSI). Although based on the same relationship between primaries and multiples as in surface-related multiple elimination (SRME), it involves quite a different process. Instead of the traditional prediction and subtraction of multiples, in EPSI the unknown primaries are the parameters of a large-scale inversion process. The downside is its long calculation times, involving the equivalent of about 100-200 SRME processes. For improving the accuracy and efficiency in multiple removal a hybrid SRME+EPSI is proposed, which makes use of the strongest points of both SRME and EPSI methodologies. It appears that the final result is better t...
We show preliminary results of least-squares migration for both primaries and multiples. The result ...
Data-driven methods—such as the estimation of primaries by sparse inversion suffer from the 'curse o...
Surface Related Multiple Elimination (SRME) usually suffers the issue of either over-attenuation tha...
Accurate removal of surface-related multiples remains a challenge in many cases. To overcome typical...
Today, the problem of surface-related multiples, especially in shallow water, is not fully solved. A...
Recently, a new approach to multiple removal has been intro- duced: estimation of primaries by spars...
ost wave-equation-based multiple removal algorithms are based on prediction and subtraction of multi...
A recent robust multiple-elimination technique, based on the underlying principle that relates prima...
Surface-related multiple elimination (SRME) is one of the most commonly used methods for suppressing...
Surface-related multiple reflections are often considered noise in the seismic reflection measuremen...
Surface-related multiple elimination (SRME) is one of the most commonly used methods for suppressing...
This thesis establishes a novel inversion methodology for the surface-related primaries from a given...
For passive seismic data, surface multiples are used to obtain an estimate of the subsurface respons...
Surface-related multiple elimination (SRME) is an algorithm that predicts all surface multiples by a...
Blended surveys have recently appeared in production environments. This underlines the need for proc...
We show preliminary results of least-squares migration for both primaries and multiples. The result ...
Data-driven methods—such as the estimation of primaries by sparse inversion suffer from the 'curse o...
Surface Related Multiple Elimination (SRME) usually suffers the issue of either over-attenuation tha...
Accurate removal of surface-related multiples remains a challenge in many cases. To overcome typical...
Today, the problem of surface-related multiples, especially in shallow water, is not fully solved. A...
Recently, a new approach to multiple removal has been intro- duced: estimation of primaries by spars...
ost wave-equation-based multiple removal algorithms are based on prediction and subtraction of multi...
A recent robust multiple-elimination technique, based on the underlying principle that relates prima...
Surface-related multiple elimination (SRME) is one of the most commonly used methods for suppressing...
Surface-related multiple reflections are often considered noise in the seismic reflection measuremen...
Surface-related multiple elimination (SRME) is one of the most commonly used methods for suppressing...
This thesis establishes a novel inversion methodology for the surface-related primaries from a given...
For passive seismic data, surface multiples are used to obtain an estimate of the subsurface respons...
Surface-related multiple elimination (SRME) is an algorithm that predicts all surface multiples by a...
Blended surveys have recently appeared in production environments. This underlines the need for proc...
We show preliminary results of least-squares migration for both primaries and multiples. The result ...
Data-driven methods—such as the estimation of primaries by sparse inversion suffer from the 'curse o...
Surface Related Multiple Elimination (SRME) usually suffers the issue of either over-attenuation tha...