We derive an expression for the error introduced by the second-order accurate temporal finitedifference (FD) operator, as present in the FD, pseudospectral and spectral element methods for seismic wave modeling applied to time-invariant media. The 'time-dispersion' error speeds up the signal as a function of frequency and time step only. Time dispersion is thus independent of the propagation path, medium or spatial modeling error.We derive two transforms to either add or remove time dispersion from synthetic seismograms after a simulation. The transforms are compared to previous related work and demonstrated on wave modeling in acoustic as well as elastic media. In addition, an application to imaging is shown. The transforms enable accurate...
textOur knowledge of elastic wave propagation in general heterogeneous media with complex geological...
In this dissertation, new and more efficient finite element methods for modelling seismic wave propa...
The numerical dispersion of 2D acoustic wave modeling has become an interesting subject in wave mode...
In recent years, it has been recognized that the seismic wave equation solved with a finite-differen...
International audienceMany scientific applications require accurate modeling of seismic wave propaga...
Seismograms (i.e., recordings of seismic waves that propagate through the earth) can be used to unco...
Seismic imaging in geologically complex areas, such as sub-salt or attenuating areas, has been one o...
The staggered-grid finite-difference (FD) method is widely used in numerical simulation of the wave ...
International audienceReference 31 presents a multidomain pseudospectral time-domain method to simul...
This paper deals with seismic signal processing. We pro-pose a new algorithm which performs the disp...
International audienceWe analyse 13 3-D numerical time-domain explicit schemes for modelling seismic...
International audienceThe explicit time-domain spectral-element method (SEM) for synthesizing seismo...
textOur knowledge of elastic wave propagation in general heterogeneous media with complex geological...
In this dissertation, new and more efficient finite element methods for modelling seismic wave propa...
The numerical dispersion of 2D acoustic wave modeling has become an interesting subject in wave mode...
In recent years, it has been recognized that the seismic wave equation solved with a finite-differen...
International audienceMany scientific applications require accurate modeling of seismic wave propaga...
Seismograms (i.e., recordings of seismic waves that propagate through the earth) can be used to unco...
Seismic imaging in geologically complex areas, such as sub-salt or attenuating areas, has been one o...
The staggered-grid finite-difference (FD) method is widely used in numerical simulation of the wave ...
International audienceReference 31 presents a multidomain pseudospectral time-domain method to simul...
This paper deals with seismic signal processing. We pro-pose a new algorithm which performs the disp...
International audienceWe analyse 13 3-D numerical time-domain explicit schemes for modelling seismic...
International audienceThe explicit time-domain spectral-element method (SEM) for synthesizing seismo...
textOur knowledge of elastic wave propagation in general heterogeneous media with complex geological...
In this dissertation, new and more efficient finite element methods for modelling seismic wave propa...
The numerical dispersion of 2D acoustic wave modeling has become an interesting subject in wave mode...