A Finite-Difference Scheme Based on PML Boundary Condition with High Power Grid Step Variation

A fluid dynamic traffic flow model with a linear velocity-density closure relation is considered. The model reads as a quasi-linear first order hyperbolic partial differential equation (PDE) and in order to incorporate initial and boundary data the PDE is treated as an initial boundary value problem (IBVP). The derivation of a first order explicit finite difference scheme of the IBVP for two-point boundary condition is presented which is analogous to the well known Lax-Friedrichs scheme. The Lax-Friedrichs scheme for our model is not straight-forward to implement and one needs to employ a simultaneous physical constraint and stability condition. Therefore, a mathematical analysis is presented in order to establish the physical constraint and stability condition of the scheme. The finite difference scheme is implemented and the graphical presentation of numerical features of error estimation and rate of convergence is produced. Numerical simulation results verify some well understood qualitative behavior of traffic flow.DOI: http://dx.doi.org/10.3329/ganit.v31i0.10307GANIT J. Bangladesh Math. Soc. (ISSN 1606-3694) 31 (2011) 43-52

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Appendix 4D: Finite difference scheme to solve the initial and boundary condition problem of a diffusion controlled adsorption model for a two component surfactant system

Studies in Interface Science - Dynamics of Adsorption at Liquid Interfaces - Theory, Experiment, Application ◽

10.1016/s1383-7303(06)80032-3 ◽

1995 ◽

pp. 521-524

Keyword(s):

Boundary Condition ◽

Finite Difference ◽

Difference Scheme ◽

Finite Difference Scheme ◽

Adsorption Model ◽

Surfactant System ◽

Diffusion Controlled ◽

Two Component ◽

Condition Problem ◽

Controlled Adsorption

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Direct Numerical Simulation of Flow around a Two-Dimensional Circular Cylinder by Higher-Order Finite Difference Scheme. An Investigation of the Outflow Boundary Condition.

TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series B ◽

10.1299/kikaib.62.2942 ◽

1996 ◽

Vol 62 (600) ◽

pp. 2942-2949

Author(s):

Toshio MIYAUCHI ◽

Toru HIRATA ◽

Mamoru TANAHASHI

Keyword(s):

Numerical Simulation ◽

Boundary Condition ◽

Finite Difference ◽

Circular Cylinder ◽

Direct Numerical Simulation ◽

Difference Scheme ◽

Finite Difference Scheme ◽

Two Dimensional ◽

Outflow Boundary Condition ◽

Outflow Boundary

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Cosine-type weighted hybrid absorbing boundary based on the second-order Higdon boundary condition and its GPU implementation

Journal of Geophysics and Engineering ◽

10.1093/jge/gxz102 ◽

2020 ◽

Vol 17 (2) ◽

pp. 231-248

Author(s):

Chuang Xie ◽

Peng Song ◽

Jun Tan ◽

Baohua Liu ◽

Jinshan Li ◽

...

Keyword(s):

Boundary Condition ◽

Finite Difference ◽

Difference Scheme ◽

Finite Difference Scheme ◽

Second Order ◽

Gpu Acceleration ◽

Processing Unit ◽

Hybrid Mode ◽

Absorption Effect ◽

Absorbing Boundary

Abstract In this paper, we analyze the absorption effect of the hybrid absorbing boundary condition (ABC) with various hybrid modes, and propose a cosine-type optimized weighted hybrid mode taking into account the boundary reflection intensity of the inner and outer boundaries of transition area. Additionally, we derive a new finite-difference scheme of the second-order Higdon ABC and the corner equation for Graphic Processing Unit (GPU) acceleration. On this basis, a new type of second-order Higdon hybrid ABC applicable for GPU acceleration is established in the acoustic finite-difference modeling. Numerical experiments demonstrate that the proposed cosine-type weighted hybrid mode can achieve a better absorption effect compared with other weighted hybrid modes; the second-order Higdon ABC based on the proposed new finite-difference scheme can effectively improve the GPU speed-up ratio and is more effective in large-scale wavefield high-precision simulation based on GPU acceleration.

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