期刊
COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION
卷 128, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.cnsns.2023.107607
关键词
Riesz space fractional telegraph equation; Fractional central difference scheme; Calculation of matrix functions; Exponential Runge-Kutta method
This paper studies the numerical solution of a class of Riesz space fractional telegraph equation. The equations are discretized using the fractional central difference scheme in the spatial direction and a fourth-order exponential Runge-Kutta method is chosen in the temporal direction. An efficient method for calculating the matrix exponent and matrix phi-function is proposed, improving the efficiency of the matrix functions calculation. Numerical experiments demonstrate the convergence order and effectiveness of the scheme.
In this paper, we study the numerical solution of a class of Riesz space fractional telegraph equation. In the spatial direction, the equations are discretized using the fractional central difference scheme, and an equivalent semi-linear form is obtained. Then, a fourth-order exponential Runge-Kutta method is chosen in the temporal direction. Moreover, an efficient method for calculating the matrix exponent and matrix phi-function is proposed by performing a series of matrix transformations on the coefficient matrix in the semi-linear form, improving the efficiency of the matrix functions calculation. Several numerical experiments show that the convergence order of the scheme is O(h(2) + tau(4)), where h is the space step and tau is the time step. The effectiveness of the scheme is also verified.
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