Add to ORKGInternational audienceWe assess the kinematic and dynamic accuracies of a finite-difference frequency-domain method for qP wave modelling in transversally isotropic acoustic media with tilted symmetry axis. This method was developed as a tool for frequency-domain full-waveform inversion which requires accurate traveltime and amplitude modelling. The modelling method is based on the parsimonious mixed-grid method which requires 5 grid points per wavelength in homogeneous media to mitigate numerical dispersion. We compare seismograms computed with the acoustic frequency-domain method with that provided by the complete solution of the transversally isotropic elastic wave equation. As expected we observed strong traveltime and amplitude mismatc...
Pure P-wave equations for acoustic modeling in transverse isotropic media are derived by approximati...
The computational burden of frequency-domain full-waveform inversion (FWI) of wide-aperture fixed-sp...
International audienceWe present a frequency-domain finite-difference method for modeling 3D acousti...
International audienceWe assess the kinematic and dynamic accuracies of a finite-difference frequenc...
A 2D finite-difference, frequency-domain method was developed for modeling viscoacoustic seismic wav...
Real sedimentary media can usually be characterized as transverse isotropy. To reveal wave propagati...
International audienceP323 Finite-Difference Frequency-Domain Modeling of Acoustic Wave Propagation ...
Summarization: When treating the forward full waveform case, a fast and accurate algorithm for model...
The purpose of this study is to verify the numerical simulation of the finite difference method of t...
Forward modelling of seismic waves is an essential tool in the determination of the underlying struc...
Based on an acoustic assumption (shear wave velocity is zero) and a dispersion relation, we derive a...
Pure P-wave equations for acoustic modeling in transverse isotropic media are derived by approximati...
The computational burden of frequency-domain full-waveform inversion (FWI) of wide-aperture fixed-sp...
International audienceWe present a frequency-domain finite-difference method for modeling 3D acousti...
International audienceWe assess the kinematic and dynamic accuracies of a finite-difference frequenc...
A 2D finite-difference, frequency-domain method was developed for modeling viscoacoustic seismic wav...
Real sedimentary media can usually be characterized as transverse isotropy. To reveal wave propagati...
International audienceP323 Finite-Difference Frequency-Domain Modeling of Acoustic Wave Propagation ...
Summarization: When treating the forward full waveform case, a fast and accurate algorithm for model...
The purpose of this study is to verify the numerical simulation of the finite difference method of t...
Forward modelling of seismic waves is an essential tool in the determination of the underlying struc...
Based on an acoustic assumption (shear wave velocity is zero) and a dispersion relation, we derive a...
Pure P-wave equations for acoustic modeling in transverse isotropic media are derived by approximati...
The computational burden of frequency-domain full-waveform inversion (FWI) of wide-aperture fixed-sp...
International audienceWe present a frequency-domain finite-difference method for modeling 3D acousti...