Release time:2022-04-24  Hits:

• DOI number:10.4208/nmtma.OA-2021-0067
• Affiliation of Author(s):数学学院
• Journal:Numerical Mathematics: Theory, Methods and Applications
• Key Words:Artificial boundary conditions, time-fractional telegraph equation, finite difference scheme, fractional Cattaneo heat conduction law
• Abstract:In this paper, we study the numerical solution of the time-fractional telegraph equation on the unbounded domain. We first introduce the artificial boundaries Γ± to get a finite computational domain. On the artificial boundaries  Γ±, we use the Laplace transform to construct the exact artificial boundary conditions (ABCs) to reduce the original problem to an initial-boundary value problem on a bounded domain. In addition, we propose a finite difference scheme based on the L1_2 formule for the Caputo fractional derivative in time direction and the central difference scheme for the spatial directional derivative to solve the reduced problem. In order to reduce the effect of unsmoothness of the solution at the initial moment, we use a fine mesh and low-order interpolation to discretize the solution near t = 0. Finally, some numerical results show the efficiency and reliability of the ABCs and validate our theoretical results.
• Note:15 (2022), pp. 360-386
• Discipline:Natural Science
• Document Type:J
• Volume:15
• Issue:2
• Translation or Not:no
• Included Journals:SCI
• Correspondence Author:黄忠亿
• Date of Publication:2022-03-23