Joint migration inversion is a recently proposed technology, accommodating velocity model building and seismic migration in one integrated process. Different from the widely accepted full waveform inversion technology, it uses imaging parameters, i.e. velocities and reflectivities of the subsurface, to parameterize its solution space. The unique feature of this new technology is its explicit capability to exploit multiples in its inversion scheme, which are treated as noise by most current technologies. In this paper, we comprehensively evaluate the state-of-the-art joint migration inversion technology from various angles: we first benchmark its performance, on both velocity model building and seismic imaging, against that of the well-accep...
3D borehole-related seismic data can provide us with accurate velocity models and high-resolution im...
During the past decade, time-lapse seismic technology has been widely applied in hydrocarbon reservo...
Les expériences sismiques actives sont largement utilisées pour caractériser la structure de la subs...
Seismic imaging projects aim to reveal the structure of the earths crust from seismic data. These pr...
We propose a joint migration inversion algorithm that aims at combining the best elements of imaging...
Traditional full-waveform inversion is a non-linear and ill-posed inversion problem. To reduce the n...
Seismic imaging is a significant technology to provide the image of the subsurface in several fields...
The next generation seismic migration and inversion technology considers multiple scattering as vita...
The next generation seismic imaging algorithms will consider multiple scattering as indispensable i...
As full waveform inversion (FWI) is a non-unique and typically ill-posed inversion problem, it needs...
Image-domain seismic inversion with subsurface offset extension may converge to kinematically accura...
Active seismic experiments are widely used to characterize the structure of the subsurface. Migratio...
This paper proposes a reflectivity constraint for velocity estimation to optimally solve the inverse...
Joint inversion of different geophysical methods is a powerful tool to overcome the limitations of i...
Joint inversion of different geophysical methods is a powerful tool to overcome the limitations of i...
3D borehole-related seismic data can provide us with accurate velocity models and high-resolution im...
During the past decade, time-lapse seismic technology has been widely applied in hydrocarbon reservo...
Les expériences sismiques actives sont largement utilisées pour caractériser la structure de la subs...
Seismic imaging projects aim to reveal the structure of the earths crust from seismic data. These pr...
We propose a joint migration inversion algorithm that aims at combining the best elements of imaging...
Traditional full-waveform inversion is a non-linear and ill-posed inversion problem. To reduce the n...
Seismic imaging is a significant technology to provide the image of the subsurface in several fields...
The next generation seismic migration and inversion technology considers multiple scattering as vita...
The next generation seismic imaging algorithms will consider multiple scattering as indispensable i...
As full waveform inversion (FWI) is a non-unique and typically ill-posed inversion problem, it needs...
Image-domain seismic inversion with subsurface offset extension may converge to kinematically accura...
Active seismic experiments are widely used to characterize the structure of the subsurface. Migratio...
This paper proposes a reflectivity constraint for velocity estimation to optimally solve the inverse...
Joint inversion of different geophysical methods is a powerful tool to overcome the limitations of i...
Joint inversion of different geophysical methods is a powerful tool to overcome the limitations of i...
3D borehole-related seismic data can provide us with accurate velocity models and high-resolution im...
During the past decade, time-lapse seismic technology has been widely applied in hydrocarbon reservo...
Les expériences sismiques actives sont largement utilisées pour caractériser la structure de la subs...