A pseudo-spectral method based on reproducing kernel for solving the time-fractional diffusion-wave equation

被引:0
作者
Mojtaba Fardi
Shrideh K. Qasem Al-Omari
Serkan Araci
机构
[1] Shahrekord University,Department of Applied Mathematics, Faculty of Mathematical Science
[2] Al-Balqa Applied University,Department of Physics and Basic Sciences
[3] Hasan Kalyoncu University,Department of Basic Sciences, Faculty of Engineering
来源
Advances in Continuous and Discrete Models | / 2022卷
关键词
Finite difference; Pseudo-spectral method; Reproducing kernel; Reproducing kernel hilbert space; Time-fractional diffusion-wave equation;
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摘要
In this paper, we focus on the development and study of the finite difference/pseudo-spectral method to obtain an approximate solution for the time-fractional diffusion-wave equation in a reproducing kernel Hilbert space. Moreover, we make use of the theory of reproducing kernels to establish certain reproducing kernel functions in the aforementioned reproducing kernel Hilbert space. Furthermore, we give an approximation to the time-fractional derivative term by applying the finite difference scheme by our proposed method. Over and above, we present an appropriate technique to derive the numerical solution of the given equation by utilizing a pseudo-spectral method based on the reproducing kernel. Then, we provide two numerical examples to support the accuracy and efficiency of our proposed method. Finally, we apply numerical experiments to calculate the quality of our approximation by employing discrete error norms.
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[1]  
Qiao L.(2020)An alternating direction implicit orthogonal spline collocation method for the two dimensional multi-term time fractional integro-differential equation Appl. Numer. Math. 151 199-212
[2]  
Wang Z.(2021)Sharp error estimate of a compact L1-ADI scheme for the two-dimensional time-fractional integro-differential equation with singular kernels Appl. Numer. Math. 159 190-203
[3]  
Xu D.(2021)Second order difference schemes for time-fractional KdV–Burgers’ equation with initial singularity Appl. Math. Lett. 112 11307-11331
[4]  
Wang Z.(2022)Time two-grid technique combined with temporal second order difference method for two-dimensional semilinear fractional sub-diffusion equations Appl. Math. Lett. 129 299-313
[5]  
Cen D.(2022)A fast difference scheme on a graded mesh for time-fractional and space distributed-order diffusion equation with nonsmooth data Int. J. Mod. Phys. B 36 1-16
[6]  
Mo Y.(2021)A numerical solution strategy based on error analysis for time-fractional mobile/immobile transport model Soft Comput. 25 1-19
[7]  
Cen D.(2021)A novel finite difference-spectral method for fractal mobile/immobile transport model based on Caputo–Fabrizio derivative Chaos Solitons Fractals 143 1-15
[8]  
Wang Z.(2022)Attractive multistep reproducing kernel approach for solving stiffness differential systems of ordinary differential equations and some error analysis Comput. Model. Eng. Sci. 130 211-240
[9]  
Mo Y.(2022)Abundant exact travelling wave solutions for a fractional massive Thirring model using extended Jacobi elliptic function method Fractal Fract. 6 1413-1423
[10]  
Cen D.(2020)Structure of optical soliton solution for nonlinear resonant space-time Schrodinger equation in conformable sense with full nonlinearity term Phys. Scr. 95 215-225
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