Presentation of the efficient scheme for solving fractional order telegraph problems

Q1 Mathematics Partial Differential Equations in Applied Mathematics Pub Date : 2024-11-05 DOI:10.1016/j.padiff.2024.100976

Wasim Sajjad Hussain , Sajjad Ali , Nahid Fatima , Kamal Shah , Thabet Abdeljawad

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Abstract

The Asymptotic Homotopy Perturbation Transform Method AHPTM is presented in this work. It is combined version of the Asymptotic Homotopy Perturbation Method AHPM and Laplace transformation. The focus of the work is the introduction of a new fast convergent scheme to obtain the solution of the fractional partial differential equations. Therefore, the first demonstration of the AHPTM is present for the solution of space-fractional telegraph equation (SFTE) in this work. The Caputo version of fractional derivatives has been utilized. Three test problems of the important fractional telegraph model were solved by this proposed scheme. The scheme of AHPTM worked without exploiting Ji. Huan He polynomials or Adomian polynomials. This application was elaborated by providing error estimates, a graphical presentation and tabulation of the results obtained by AHPTM. The comparison of results obtained by AHPTM with exact results is provided which indicated the accuracy of the scheme.

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介绍解决分数阶电报问题的高效方案

本研究提出了渐近同调扰动变换方法 AHPTM。它是渐近同调扰动法 AHPM 和拉普拉斯变换的组合版本。这项工作的重点是引入一种新的快速收敛方案，以获得分数偏微分方程的解。因此，在这项工作中，AHPTM 首次展示了空间-分数电报方程（SFTE）的解法。本文采用了分数导数的 Caputo 版本。该方案解决了重要分数电报模型的三个测试问题。AHPTM 方案没有利用 Ji.Huan He 多项式或 Adomian 多项式。通过对 AHPTM 得出的结果进行误差估计、图形展示和列表，对这一应用进行了详细阐述。AHPTM 得出的结果与精确结果进行了比较，表明了该方案的准确性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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