A novel explicit fast numerical scheme for the Cauchy problem for integro-differential equations with a difference kernel and its application

IF 2.9 2区 数学 Q1 MATHEMATICS, APPLIED Computers & Mathematics with Applications Pub Date : 2024-10-17 DOI:10.1016/j.camwa.2024.10.016
Anatoly A. Alikhanov , Mohammad Shahbazi Asl , Dongfang Li
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Abstract

The present study focuses on designing a second-order novel explicit fast numerical scheme for the Cauchy problem incorporating memory associated with an evolutionary equation, where the integral term's kernel is a discrete difference operator. The Cauchy problem under consideration is related to a real finite-dimensional Hilbert space and includes a self-adjoint operator that is both positive and definite. We introduce a transformative technique for converting the Cauchy problem incorporating memory, into a local evolutionary system of equations by approximating the difference kernel using the sum of exponentials (SoE) approach. A second-order explicit scheme is then constructed to solve the local system. We thoroughly investigate the stability of this explicit scheme, and present the necessary conditions for the stability of the scheme. Moreover, we extended our investigation to encompass time-fractional diffusion-wave equations (TFDWEs) involving a fractional Caputo derivative with an order ranging between (1,2). Initially, we transform the main TFDWE model into a new model that incorporates the fractional Riemann-Liouville integral. Subsequently, we expand the applicability of our idea to develop an explicit fast numerical algorithm for approximating the model. The stability properties of this fast scheme for solving TFDWEs are assessed. Numerical simulations including a two-dimensional Cauchy problem as well as one-dimensional and two-dimensional TFDWE models are provided to validate the accuracy and experimental order of convergence of the schemes.
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带差分核的整微分方程 Cauchy 问题的新型显式快速数值方案及其应用
本研究的重点是为包含与演化方程相关的记忆的 Cauchy 问题设计一种二阶新型显式快速数值方案,其中积分项的内核是离散差分算子。所考虑的 Cauchy 问题与实有限维希尔伯特空间有关,包含一个正定的自联合算子。我们引入了一种转换技术,通过使用指数和(SoE)方法逼近差分核,将包含记忆的 Cauchy 问题转换为局部演化方程系统。然后构建一个二阶显式方案来求解局部系统。我们深入研究了该显式方案的稳定性,并提出了该方案稳定性的必要条件。此外,我们还将研究扩展到了涉及分数卡普托导数的时间分数扩散波方程(TFDWEs),其阶数介于 (1,2) 之间。首先,我们将主要的 TFDWE 模型转化为一个包含分数黎曼-刘维尔积分的新模型。随后,我们扩展了这一想法的适用范围,开发出一种近似该模型的显式快速数值算法。我们评估了这种用于求解 TFDWE 的快速方案的稳定性。我们提供了包括二维 Cauchy 问题以及一维和二维 TFDWE 模型在内的数值模拟,以验证方案的准确性和实验收敛阶次。
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来源期刊
Computers & Mathematics with Applications
Computers & Mathematics with Applications 工程技术-计算机:跨学科应用
CiteScore
5.10
自引率
10.30%
发文量
396
审稿时长
9.9 weeks
期刊介绍: Computers & Mathematics with Applications provides a medium of exchange for those engaged in fields contributing to building successful simulations for science and engineering using Partial Differential Equations (PDEs).
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