A new family of 𝒜 − acceptable nonlinear methods with fixed and variable stepsize approach

IF 1.2 Q3 MATHEMATICS, APPLIED Computational and Mathematical Methods Pub Date : 2021-11-12 DOI:10.1002/cmm4.1213

Sania Qureshi, Amanullah Soomro, Evren Hınçal

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引用次数: 9

Abstract

Solving stiff, singular, and singularly perturbed initial value problems (IVPs) has always been challenging for researchers working in different fields of science and engineering. In this research work, an attempt is made to devise a family of nonlinear methods among which second- to fourth-order methods are not only $𝒜 -$ stable but $𝒜 -$ acceptable as well under order stars' conditions. These features make them more suitable for solving stiff and singular systems in ordinary differential equations. Methods with remaining orders are either zero- or conditionally stable. The theoretical analysis contains local truncation error, consistency, and order of accuracy of the proposed nonlinear methods. Furthermore, both fixed and variable stepsize approaches are introduced wherein the latter improves the performance of the devised methods. The applicability of the methods for solving the system of IVPs is also described. When used to solve problems from physical and real-life applications, including nonlinear logistic growth and stiff model for flame propagation, the proposed methods are found to have good results.

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一类新的具有定步长和变步长的非线性方法

求解刚性、奇异和奇摄动初值问题一直是不同科学和工程领域的研究人员所面临的挑战。在本研究工作中，试图设计一类非线性方法，其中二阶到四阶方法在序星条件下不仅是稳定的，而且是可以接受的。这些特点使其更适合于求解常微分方程中的刚性和奇异系统。具有剩余阶数的方法要么为零稳定，要么为条件稳定。理论分析包含了所提出的非线性方法的局部截断误差、一致性和精度顺序。此外，还介绍了固定步长和可变步长方法，其中可变步长方法改善了所设计方法的性能。还描述了求解IVPs系统的方法的适用性。当用于解决物理和现实应用中的问题时，包括非线性逻辑增长和火焰传播的刚性模型，发现所提出的方法具有良好的效果。

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来源期刊

Computational and Mathematical Methods

CiteScore

2.20

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0.00%

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