International audienceA semi-analytical, semi-numerical method of seismogram synthesis is presented for piecewise heterogeneous media resulting from an arbitrary source. The method incorporates the discrete wavenumber Green's function representation into the boundary-volume integral equation numerical techniques. The presentation is restricted to 2-D antiplane motion (SH waves). To model different parts of the media to a necessary accuracy, the incident, boundary-scattering and volume-scattering waves are separately formulated in the discrete wavenumber domain and handled flexibly at various accuracies using approximation methods. These waves are accurately superposed through the generalized Lippmann-Schwinger integral (GLSI) equation. The ...
Summarization: A particle velocity‐stress, finite‐difference method is developed for the simulation ...
International audienceCompressional (P) and shear (S) wave diffraction by free‐surface topography pl...
In this thesis we study wave propagation in inhomogeneous media. Examples of the classical (massless...
International audienceA semi-analytical, semi-numerical method of seismogram synthesis is presented ...
The object of this project is aimed at development and application of a new 3D wave propagation and ...
International audienceWe present a method which combines boundary‐integral equation techniques with ...
Boundary conditions are derived for numerical wave simulations that minimize artificial reflections ...
Summary. We present a new method to calculate the SH wavefield produced by a seismic source in a hal...
A finite-difference algorithm is used to generate synthetic seismograms for waves propagating throug...
In this study, we present a new method, the local boundary integral equation-discrete wavenumber met...
a successful tool for computing synthetic seismograms for media with localized heterogeneous regions...
The numerical solution of seismic waves propagation in heterogeneous media can in-volve different me...
There are several algorithms for the modelling of seismic wave propagation in 3-D models with vertic...
Multiple methods exist for modeling with synthetic seismograms, each with its own characteristic app...
Abstract We transform the seismic wave equations in 2D inhomogeneous aniso-tropic media into a syste...
Summarization: A particle velocity‐stress, finite‐difference method is developed for the simulation ...
International audienceCompressional (P) and shear (S) wave diffraction by free‐surface topography pl...
In this thesis we study wave propagation in inhomogeneous media. Examples of the classical (massless...
International audienceA semi-analytical, semi-numerical method of seismogram synthesis is presented ...
The object of this project is aimed at development and application of a new 3D wave propagation and ...
International audienceWe present a method which combines boundary‐integral equation techniques with ...
Boundary conditions are derived for numerical wave simulations that minimize artificial reflections ...
Summary. We present a new method to calculate the SH wavefield produced by a seismic source in a hal...
A finite-difference algorithm is used to generate synthetic seismograms for waves propagating throug...
In this study, we present a new method, the local boundary integral equation-discrete wavenumber met...
a successful tool for computing synthetic seismograms for media with localized heterogeneous regions...
The numerical solution of seismic waves propagation in heterogeneous media can in-volve different me...
There are several algorithms for the modelling of seismic wave propagation in 3-D models with vertic...
Multiple methods exist for modeling with synthetic seismograms, each with its own characteristic app...
Abstract We transform the seismic wave equations in 2D inhomogeneous aniso-tropic media into a syste...
Summarization: A particle velocity‐stress, finite‐difference method is developed for the simulation ...
International audienceCompressional (P) and shear (S) wave diffraction by free‐surface topography pl...
In this thesis we study wave propagation in inhomogeneous media. Examples of the classical (massless...