With increased computational power, reverse-time prestack depth migration (RT-PSDM) has become a preferred imaging tool in seismic exploration, yet its use has remained relatively limited in ground-penetrating radar (GPR) applications. Complex topography alters the wavefield kinematics making for a challenging imaging problem. Model simulations show that topographic variation can substantially distort reflection amplitudes due to irregular wavefield spreading, attenuation anomalies due to irregular path lengths, and focusing and defocusing effects at the surface. The effects are magnified when the topographic variations are on the same order as the depth of investigation––a situation that is often encountered in GPR investigations. Here, I ...
Multi-offset ground-penetrating radar data possess a number of important advantages over constant-of...
Continuous multioffset acquisition of ground penetrating radar (GPR) data provides the capability to...
Migration is a common name for processing techniques that try to reconstruct, from the data recorded...
With increased computational power, reverse-time prestack depth migration (RT-PSDM) has become a pre...
In ground-penetrating radar (GPR) imaging, it is common for the depth of investigation to be on the ...
We have developed a modified 3D prestack time migra-tion (PSTM) scheme that can handle rugged topogr...
Acquisition and processing of multifold ground-penetrating radar (GPR) data enable detailed measurem...
Additional information regarding the continuity and resolution of selected seismic reflectors in rev...
Ground-penetrating radar (GPR) is a remote sensing technique used to obtain information on subsurfac...
textGround Penetrating Radar (GPR) is an active and non-invasive exploration technique based on the...
PSDM is increasingly becoming rule rather than exception in near surface seismic imaging when the go...
International audienceMost Ground Penetrating Radar (GPR) measurements are performed on nearly flat ...
This thesis embodies a mathematical, physical, and quantitative investigation into the imaging and a...
Texto completo: acesso restrito. p.19–30Optimal electromagnetic wave propagation velocities and subs...
To improve the characterization of the near surface and the critical zone, high resolution geophysic...
Multi-offset ground-penetrating radar data possess a number of important advantages over constant-of...
Continuous multioffset acquisition of ground penetrating radar (GPR) data provides the capability to...
Migration is a common name for processing techniques that try to reconstruct, from the data recorded...
With increased computational power, reverse-time prestack depth migration (RT-PSDM) has become a pre...
In ground-penetrating radar (GPR) imaging, it is common for the depth of investigation to be on the ...
We have developed a modified 3D prestack time migra-tion (PSTM) scheme that can handle rugged topogr...
Acquisition and processing of multifold ground-penetrating radar (GPR) data enable detailed measurem...
Additional information regarding the continuity and resolution of selected seismic reflectors in rev...
Ground-penetrating radar (GPR) is a remote sensing technique used to obtain information on subsurfac...
textGround Penetrating Radar (GPR) is an active and non-invasive exploration technique based on the...
PSDM is increasingly becoming rule rather than exception in near surface seismic imaging when the go...
International audienceMost Ground Penetrating Radar (GPR) measurements are performed on nearly flat ...
This thesis embodies a mathematical, physical, and quantitative investigation into the imaging and a...
Texto completo: acesso restrito. p.19–30Optimal electromagnetic wave propagation velocities and subs...
To improve the characterization of the near surface and the critical zone, high resolution geophysic...
Multi-offset ground-penetrating radar data possess a number of important advantages over constant-of...
Continuous multioffset acquisition of ground penetrating radar (GPR) data provides the capability to...
Migration is a common name for processing techniques that try to reconstruct, from the data recorded...