Add to ORKGWe present two fourth-order compact finite difference (CFD) discretizations of the velocity–pressure formulation of the acoustic wave equation in 2-D rectangular grids. The first method uses standard implicit CFD on nodal meshes and requires solving tridiagonal linear systems along each grid line, while the second scheme employs a novel set of mimetic CFD operators for explicit differentiation on staggered grids. Both schemes share a Crank–Nicolson time integration decoupled by the Peaceman–Rachford splitting technique to update discrete fields by alternating the coordinate direction of CFD differentiation (ADI-like iterations). For comparison purposes, we also implement a spatially fourth-order FD scheme using non compact staggered mimetic...
We develop embedded boundary methods to handle arbitrarily shaped topography to ac- curately simulat...
We present a 3D frequency-domain finite-difference method for acoustic wave propagation modeling. Th...
In this paper, we present an improvement to our previously published nearly analytic discrete method...
In this work, we implement two fourth-order compact finite differences (CFD) methods and use them to...
This work studies the parallelization and empirical convergence of two finite difference acoustic wa...
A new mimetic finite difference scheme for solving the acoustic wave equation is presented. It combi...
Geophysical Journal International, v. 157, n. 3, p. 1269-1296, 2004. http://dx.doi.org/10.1111/j.136...
This thesis analyzes the computational efficiency of two types of numerical methods: finite differen...
This paper is devoted to the simulation of acoustic, electromagnetic and elastodynamic wave propagat...
The cornerstone of mimetic finite differentiation (FD) is that discrete gradients and divergences, i...
Forward modeling plays a key role in both the creation of predictive models and the study of the sur...
Simulation of acoustic wave propagation in the Laplace?Fourier (LF) domain, with a spatially uniform...
Mimetic finite difference (MFD) approximations of continuous gradient and divergence operators satis...
Realistic applications of numerical modeling of acoustic wave dynamics usually demand high-performan...
This article is concerned with the fourth-order compact scheme for an ac-curate simulation of acoust...
We develop embedded boundary methods to handle arbitrarily shaped topography to ac- curately simulat...
We present a 3D frequency-domain finite-difference method for acoustic wave propagation modeling. Th...
In this paper, we present an improvement to our previously published nearly analytic discrete method...
In this work, we implement two fourth-order compact finite differences (CFD) methods and use them to...
This work studies the parallelization and empirical convergence of two finite difference acoustic wa...
A new mimetic finite difference scheme for solving the acoustic wave equation is presented. It combi...
Geophysical Journal International, v. 157, n. 3, p. 1269-1296, 2004. http://dx.doi.org/10.1111/j.136...
This thesis analyzes the computational efficiency of two types of numerical methods: finite differen...
This paper is devoted to the simulation of acoustic, electromagnetic and elastodynamic wave propagat...
The cornerstone of mimetic finite differentiation (FD) is that discrete gradients and divergences, i...
Forward modeling plays a key role in both the creation of predictive models and the study of the sur...
Simulation of acoustic wave propagation in the Laplace?Fourier (LF) domain, with a spatially uniform...
Mimetic finite difference (MFD) approximations of continuous gradient and divergence operators satis...
Realistic applications of numerical modeling of acoustic wave dynamics usually demand high-performan...
This article is concerned with the fourth-order compact scheme for an ac-curate simulation of acoust...
We develop embedded boundary methods to handle arbitrarily shaped topography to ac- curately simulat...
We present a 3D frequency-domain finite-difference method for acoustic wave propagation modeling. Th...
In this paper, we present an improvement to our previously published nearly analytic discrete method...