Computational Approach for Differential Equations with Local and Nonlocal Fractional-Order Differential Operators

IF 0.7 Q2 MATHEMATICS Muenster Journal of Mathematics Pub Date : 2023-05-26 DOI:10.1155/2023/6542787
Kamran, Ujala Gul, Fahad M. Alotaibi, K. Shah, T. Abdeljawad
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引用次数: 0

Abstract

Laplace transform has been used for solving differential equations of fractional order either PDEs or ODEs. However, using the Laplace transform sometimes leads to solutions in Laplace space that are not readily invertible to the real domain by analytical techniques. Therefore, numerical inversion techniques are then used to convert the obtained solution from Laplace domain into time domain. Various famous methods for numerical inversion of Laplace transform are based on quadrature approximation of Bromwich integral. The key features are the contour deformation and the choice of the quadrature rule. In this work, the Gauss–Hermite quadrature method and the contour integration method based on the trapezoidal and midpoint rule are tested and evaluated according to the criteria of applicability to actual inversion problems, applicability to different types of fractional differential equations, numerical accuracy, computational efficiency, and ease of programming and implementation. The performance and efficiency of the methods are demonstrated with the help of figures and tables. It is observed that the proposed methods converge rapidly with optimal accuracy without any time instability.
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含局部和非局部分数阶微分算子微分方程的计算方法
拉普拉斯变换已被用于求解分数阶偏微分方程或偏微分方程的微分方程。然而,使用拉普拉斯变换有时会导致拉普拉斯空间中的解不容易通过解析技术可逆到实域。因此,利用数值反演技术将得到的解从拉普拉斯域转换为时域。各种著名的拉普拉斯变换数值反演方法都是基于布罗姆维奇积分的正交逼近。其关键特征是轮廓变形和正交规则的选择。根据对实际反演问题的适用性、对不同类型分数阶微分方程的适用性、数值精度、计算效率、易于编程和实现等标准,对高斯-埃尔米特求积法和基于梯形和中点规则的轮廓积分法进行了测试和评价。通过图形和表格验证了这些方法的性能和效率。结果表明,该方法收敛速度快,精度高,无时间不稳定性。
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