International audienceReflection tomography is an efficient method to determine a subsurface velocity model that best fits the traveltime data associated to the main events picked on the seismic sections. A careful choice of the model representation has to be done: a blocky model representation based on regular gridded b-spline functions has been proposed. This flexible parameterization allows accurate and robust inversion but can lead to a huge number of parameters. An adaptive parameterization that enables to account for local complexities and inhomogeneous ray coverage is considered
The main aim of this work was to obtain an approximate solution of the seismic traveltime tomography...
The combination of kinematic and dynamic ray tracing has been used since the 1970s for simulation (m...
3D reflection tomography allows the macro-model of complex geological structures to be reconstructed...
International audienceS u m m a r y A 3D reflection tomography that can determine correct subsurface...
International audienceReflection tomography consists in determining a velocity field and reflector g...
We present a new 2-D traveltime tomography method for the inversion of densely sampled seismic strea...
The determination of a correct subsurface velocity model is of strategic importance for seismic imag...
The measured traveltimes of specular reflection events are inverted to obtain a low spatial frequenc...
Seismic imaging in depth is limited by the accuracy of velocity model estimation. Slope tomography u...
The use of parametric curves to define velocity models in seismic traveltime tomography is proposed....
Over the last two decades, a lot of global-scale or regional-scale seismic models of the Earth's int...
Conventional reflection tomography creates an estimate of subsurface seismic velocity structure by in...
Reflection tomography allows the determination of a velocity model that fits the traveltime data ass...
International audienceVelocity macromodel building is an essential step of the seismic imaging workf...
A seismic traveltime inversion method is proposed for building smooth velocity models using travelti...
The main aim of this work was to obtain an approximate solution of the seismic traveltime tomography...
The combination of kinematic and dynamic ray tracing has been used since the 1970s for simulation (m...
3D reflection tomography allows the macro-model of complex geological structures to be reconstructed...
International audienceS u m m a r y A 3D reflection tomography that can determine correct subsurface...
International audienceReflection tomography consists in determining a velocity field and reflector g...
We present a new 2-D traveltime tomography method for the inversion of densely sampled seismic strea...
The determination of a correct subsurface velocity model is of strategic importance for seismic imag...
The measured traveltimes of specular reflection events are inverted to obtain a low spatial frequenc...
Seismic imaging in depth is limited by the accuracy of velocity model estimation. Slope tomography u...
The use of parametric curves to define velocity models in seismic traveltime tomography is proposed....
Over the last two decades, a lot of global-scale or regional-scale seismic models of the Earth's int...
Conventional reflection tomography creates an estimate of subsurface seismic velocity structure by in...
Reflection tomography allows the determination of a velocity model that fits the traveltime data ass...
International audienceVelocity macromodel building is an essential step of the seismic imaging workf...
A seismic traveltime inversion method is proposed for building smooth velocity models using travelti...
The main aim of this work was to obtain an approximate solution of the seismic traveltime tomography...
The combination of kinematic and dynamic ray tracing has been used since the 1970s for simulation (m...
3D reflection tomography allows the macro-model of complex geological structures to be reconstructed...