非线性分数延迟积分微分方程的数值解法及收敛性分析

Indian Journal of Pure and Applied Mathematics Pub Date : 2024-07-09 DOI:10.1007/s13226-024-00620-5

N. Peykrayegan, M. Ghovatmand, M. H. Noori Skandari, S. Shateyi

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摘要

在这项工作中，我们给出了一种高精度方法，用于数值求解非线性分数延迟积分微分方程。通过考虑延迟时间前后的方程，我们首先在方程中应用了延迟函数，并提出了一个等价系统。通过在 Jacobi-Gauss 配点上离散化，然后提出一个代数非线性系统来近似求解主方程。在空间 \(L^{\infty }_{\omega ^{\alpha ,\beta }}(I)\) 和 \(L^{2}_{\omega ^{\alpha ,\beta }}(I)\) 中充分给出了方法的收敛性，并为得到的近似值指明了误差边界。最后，我们提供了一些数值示例来说明该方法的能力和效率。

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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Numerical solution of nonlinear fractional delay integro-differential equations with convergence analysis

In this work, a high accurate method is given for solving the nonlinear fractional delay integro-differential equations, numerically. By considering the equation before and after delay time, we first apply the delay function in the equation and propose an equivalent system. By discretization in the Jacobi-Gauss collocation points, an algebraic nonlinear system is then proposed to approximate the solution of main equation. The convergence of method is fully given in spaces \(L^{\infty }_{\omega ^{\alpha ,\beta }}(I)\) and \(L^{2}_{\omega ^{\alpha ,\beta }}(I)\), and the error bounds are specified for obtained approximations. Finally, some numerical examples are provided to show the capability and efficiency of method.

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Indian Journal of Pure and Applied Mathematics

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