Chebyshev finite spectral method with extended moving grids

Chebyshev finite spectral method with extended moving grids

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摘要 A Chebyshev finite spectral method on non-uniform meshes is proposed. An equidistribution scheme for two types of extended moving grids is used to generate grids. One type is designed to provide better resolution for the wave surface, and the other type is for highly variable gradients. The method has high-order accuracy because of the use of the Chebyshev polynomial as the basis function. The polynomial is used to interpolate the values between the two non-uniform meshes from a previous time step to the current time step. To attain high accuracy in the time discretization, the fourth-order Adams-Bashforth-Moulton predictor and corrector scheme is used. To avoid numerical oscillations caused by the dispersion term in the Korteweg-de Vries （KdV） equation, a numerical technique on non-uniform meshes is introduced. The proposed numerical scheme is validated by the applications to the Burgers equation （nonlinear convectiondiffusion problems） and the KdV equation （single solitary and 2-solitary wave problems）, where analytical solutions are available for comparisons. Numerical results agree very well with the corresponding analytical solutions in all cases. A Chebyshev finite spectral method on non-uniform meshes is proposed. An equidistribution scheme for two types of extended moving grids is used to generate grids. One type is designed to provide better resolution for the wave surface, and the other type is for highly variable gradients. The method has high-order accuracy because of the use of the Chebyshev polynomial as the basis function. The polynomial is used to interpolate the values between the two non-uniform meshes from a previous time step to the current time step. To attain high accuracy in the time discretization, the fourth-order Adams-Bashforth-Moulton predictor and corrector scheme is used. To avoid numerical oscillations caused by the dispersion term in the Korteweg-de Vries （KdV） equation, a numerical technique on non-uniform meshes is introduced. The proposed numerical scheme is validated by the applications to the Burgers equation （nonlinear convectiondiffusion problems） and the KdV equation （single solitary and 2-solitary wave problems）, where analytical solutions are available for comparisons. Numerical results agree very well with the corresponding analytical solutions in all cases.

作者詹杰民李毓湘董志

机构地区 Department of Applied Mechanics and Engineering Department of Civil and Structural Engineering

出处《Applied Mathematics and Mechanics(English Edition)》 SCIE EI 2011年第3期383-392,共10页 应用数学和力学（英文版）

基金 supported by the Research Grants Council of Hong Kong (No. 522007) the National Marine Public Welfare Research Projects of China (No. 201005002)

关键词 Chebyshev polynomial finite spectral method nonlinear wave non-uniform mesh moving grid Chebyshev polynomial, finite spectral method, nonlinear wave, non-uniform mesh, moving grid

分类号 O351.2 [理学—流体力学] O24 [理学—计算数学]

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参考文献2

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共引文献13

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Chebyshev finite spectral method with extended moving grids

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