Numerical simulation, existence and uniqueness for solving nonlinear mixed partial integro-differential equations with discontinuous kernels

IF 2.4 3区数学 Q1 MATHEMATICS Journal of Applied Mathematics and Computing Pub Date : 2024-07-09 DOI:10.1007/s12190-024-02160-x

Abeer M. Al-Bugami, M. A. Abdou, A. M. S. Mahdy

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Abstract

This study describes a new effective technique for solving mixed partial integro-differential equations that are nonlinear with discontinuous kernels (NMPI-DEs). We have used two well-known different numerical techniques, the toeplitz matrix technique (TMT), and the product Nystrom technique (PNT). We have outlined the characteristics of TMT and PNT in both cases, as well as the significance of each approach for characterizing and demystifying the problems’ complexity. These methods have used to convert a system of nonlinear algebraic equations has been derived from the nonlinear Fredholm integral equation (NFIE). Banach’s fixed point theory is employed to investigate the existence and uniqueness of the solution to the nonlinear mixed integral problem. Compared to other approaches, these strategies have shown excellent results in the first instance of being utilized to solve this kind of complex problem. Lastly, a comparison of the two distinct approaches is shown using several cases by using tables and figures. The Maple software has been utilized to compute and obtain all of the numerical results.

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求解非线性混合偏积分微分方程的数值模拟、存在性和唯一性，带不连续内核

本研究介绍了一种新的有效技术，用于求解具有不连续内核的非线性混合偏积分微分方程（NMPI-DE）。我们使用了两种著名的不同数值技术：托普利兹矩阵技术（TMT）和尼斯特罗姆乘积技术（PNT）。我们概述了 TMT 和 PNT 在这两种情况下的特点，以及每种方法在描述和揭示问题复杂性方面的意义。这些方法用于转换由非线性弗雷德霍姆积分方程（NFIE）导出的非线性代数方程系统。巴拿赫定点理论被用来研究非线性混合积分问题解的存在性和唯一性。与其他方法相比，这些策略在首次用于解决此类复杂问题时就显示出了卓越的效果。最后，我们利用表格和数字对这两种不同的方法进行了比较。所有数值结果均使用 Maple 软件计算得出。

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来源期刊

Journal of Applied Mathematics and Computing Mathematics-Computational Mathematics

CiteScore

4.20

自引率

4.50%

发文量

131

期刊介绍： JAMC is a broad based journal covering all branches of computational or applied mathematics with special encouragement to researchers in theoretical computer science and mathematical computing. Major areas, such as numerical analysis, discrete optimization, linear and nonlinear programming, theory of computation, control theory, theory of algorithms, computational logic, applied combinatorics, coding theory, cryptograhics, fuzzy theory with applications, differential equations with applications are all included. A large variety of scientific problems also necessarily involve Algebra, Analysis, Geometry, Probability and Statistics and so on. The journal welcomes research papers in all branches of mathematics which have some bearing on the application to scientific problems, including papers in the areas of Actuarial Science, Mathematical Biology, Mathematical Economics and Finance.