First-order internal multiples are a source of coherent noise in seismic images because they do not satisfy the single-scattering assumption fundamental to most seismic processing. There are a number of techniques to estimate internal multiples in data; in many cases, these algorithms leave some residual multiple energy in the data. This energy produces artifacts in the image, and the location of these artifacts is unknown because the multiples were estimated in the data before the image was formed. To avoid this problem, we propose a method by which the artifacts caused by internal multiples are estimated directly in the image. We use ideas from the generalized Bremmer series and the Lippmann-Schwinger scattering series to create a forward...
A very important aspect of removing multiples from seismic data is accurate prediction of their kine...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planeta...
Correct handling of strong elastic, internal, multiples remains a challenge for seismic imaging. Met...
Imaging with seismic data is typically carried out under the assumption of single scattering. Here w...
Internal multiples have long been recognized as a prob-lem in seismic imaging. Some theoretical deve...
The first part of this dissertation contributes to the removal of internal multiples using the Inver...
Curiosity regarding what we cannot see has always driven research. Science has helped us to uncover ...
Standard seismic processing steps such as velocity analysis and reverse time migration (imaging) usu...
If singly scattered seismic waves illuminate the entirety of a subsurface structure of interest, sta...
If singly scattered seismic waves illuminate the entirety of a subsurface structure of interest, sta...
Standard seismic processing steps such as velocity analy-sis and reverse time migration (imaging) us...
Imaging with seismic data is typically done under the assumption of single scattering. Here we formu...
Current multiple-removal algorithms in seismic processing use either differential moveout or predict...
Surface-related multiples, which are waves that bounce more than once between the water surface and ...
Seismic imaging aims at revealing the structural information of the subsurface using the reflected w...
A very important aspect of removing multiples from seismic data is accurate prediction of their kine...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planeta...
Correct handling of strong elastic, internal, multiples remains a challenge for seismic imaging. Met...
Imaging with seismic data is typically carried out under the assumption of single scattering. Here w...
Internal multiples have long been recognized as a prob-lem in seismic imaging. Some theoretical deve...
The first part of this dissertation contributes to the removal of internal multiples using the Inver...
Curiosity regarding what we cannot see has always driven research. Science has helped us to uncover ...
Standard seismic processing steps such as velocity analysis and reverse time migration (imaging) usu...
If singly scattered seismic waves illuminate the entirety of a subsurface structure of interest, sta...
If singly scattered seismic waves illuminate the entirety of a subsurface structure of interest, sta...
Standard seismic processing steps such as velocity analy-sis and reverse time migration (imaging) us...
Imaging with seismic data is typically done under the assumption of single scattering. Here we formu...
Current multiple-removal algorithms in seismic processing use either differential moveout or predict...
Surface-related multiples, which are waves that bounce more than once between the water surface and ...
Seismic imaging aims at revealing the structural information of the subsurface using the reflected w...
A very important aspect of removing multiples from seismic data is accurate prediction of their kine...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Earth, Atmospheric, and Planeta...
Correct handling of strong elastic, internal, multiples remains a challenge for seismic imaging. Met...