The meshless generalized finite difference method (GFDM) was used to simulate elastic wave propagation in the frequency domain. Dispersion analysis and numerical experiments were conducted to evaluate its performance. The dispersion analysis revealed that the GFDM requires approximately 5.6 grid points in a shear wavelength to suppress the dispersion error of 1% with a regular node distribution. To handle the artificial boundary reflection problem, a multiaxial convolutional perfectly matched layer (MCPML) was introduced to the meshless numerical simulation for its good performance. Numerical experiments showed that the meshless GFDM could effectively avoid stepped diffraction and reduce the total number of nodes for the calculation,...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
The successful development of an effective NDE technique depends on a full understanding of the phys...
Abstract The multiaxial perfectly matched layer (M-PML) is a stable and effective nonreflecting boun...
A meshless generalized finite difference time domain (GFDTD) method is proposed and applied to trans...
Numerical simulation of seismic wave propagation is widely employed to characterize petroleum reserv...
International audienceA new numerical technique for solving the 2D elastodynamic equations in the fr...
Representation of free-surface boundary condition in numerical calculations is an important aspect f...
International audienceA new numerical technique for solving the 2D elastodynamic equations based on ...
Summarization: Two finite-difference schemes for solving the elastic wave equation in heterogeneous ...
International audienceSummary This study introduces a Distributional finite-difference Method (DFDM)...
accepted and to be published in Geophys. J. Int.International audienceA method is proposed for accur...
Two-dimensional scattering of elastic waves in a medium containing a circular heterogeneity is inves...
International audienceThe numerical analysis of elastic wave propagation in unbounded media may be d...
This study deals with the use of the generalized finite difference method (GFDM) in perfectly matche...
In order to obtain transmission spectra through a phononic crystal as well as its waveguide, a new a...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
The successful development of an effective NDE technique depends on a full understanding of the phys...
Abstract The multiaxial perfectly matched layer (M-PML) is a stable and effective nonreflecting boun...
A meshless generalized finite difference time domain (GFDTD) method is proposed and applied to trans...
Numerical simulation of seismic wave propagation is widely employed to characterize petroleum reserv...
International audienceA new numerical technique for solving the 2D elastodynamic equations in the fr...
Representation of free-surface boundary condition in numerical calculations is an important aspect f...
International audienceA new numerical technique for solving the 2D elastodynamic equations based on ...
Summarization: Two finite-difference schemes for solving the elastic wave equation in heterogeneous ...
International audienceSummary This study introduces a Distributional finite-difference Method (DFDM)...
accepted and to be published in Geophys. J. Int.International audienceA method is proposed for accur...
Two-dimensional scattering of elastic waves in a medium containing a circular heterogeneity is inves...
International audienceThe numerical analysis of elastic wave propagation in unbounded media may be d...
This study deals with the use of the generalized finite difference method (GFDM) in perfectly matche...
In order to obtain transmission spectra through a phononic crystal as well as its waveguide, a new a...
Finite difference methods for solving the wave equation more accurately capture the physics of waves...
The successful development of an effective NDE technique depends on a full understanding of the phys...
Abstract The multiaxial perfectly matched layer (M-PML) is a stable and effective nonreflecting boun...