论文信息 - Parallel simulation of time-domain acoustic wave propagation

Parallel simulation of time-domain acoustic wave propagation

Simulations of acoustic wave propagation are an important tool for reconstructing structure of Earth’s subsurface. The core of such simulations is an efficient and accurate method of time-domain acoustic wave simulation in an inhomogeneous domain. Radial Basis Function-generated Finite Differences (RBF-FD) method is a popular variant of local strong form meshless methods that does not require predefined connections between nodes, making it easier to adapt node distribution to the problem under consideration. This paper explores RBF-FD as an alternative to traditionally FDM based methods for time-domain wave propagation. It is demonstrated that RBF-FD provides accurate results even in challenging cases, where conventional methods struggle to even obtain a stable solution.

Jure Slak | Gregor Kosec | Jure Mocnik-Berljavac

[1] Bengt Fornberg,et al. Solving PDEs with radial basis functions * , 2015, Acta Numerica.

[2] Moshe Reshef,et al. A nonreflecting boundary condition for discrete acoustic and elastic wave equations , 1985 .

[3] Bengt Fornberg,et al. On the role of polynomials in RBF-FD approximations: II. Numerical solution of elliptic PDEs , 2017, J. Comput. Phys..

[4] Jure Slak,et al. On generation of node distributions for meshless PDE discretizations , 2018, SIAM J. Sci. Comput..

[5] Petra Kaufmann,et al. Computational Methods In Partial Differential Equations , 2016 .

[6] YongOu Zhang,et al. Efficient SPH simulation of time-domain acoustic wave propagation , 2016 .

[8] G. Kosec,et al. Refined Meshless Local Strong Form solution of Cauchy–Navier equation on an irregular domain , 2019, Engineering Analysis with Boundary Elements.

[9] Jure Slak,et al. Parallel coordinate free implementation of local meshless method , 2018, 2018 41st International Convention on Information and Communication Technology, Electronics and Microelectronics (MIPRO).

[10] B. Fornberg. Generation of finite difference formulas on arbitrarily spaced grids , 1988 .

[11] Dan Negrut,et al. On the Use of Meshless Methods in Acoustic Simulations , 2009 .