求解二阶常微分方程的连续显式混合方法

IF 0.2 Q4 MATHEMATICS
F. Obarhua, S. J. Kayode
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引用次数: 6

摘要

本文提出了二阶常微分方程直接逼近的显式混合方法。本文采用的方法是对基函数及其对应的微分系统分别进行插值和配置。在网格点和离网格点对基函数进行插值,而微分系统在选定的点上进行并置。将未知参数代入基函数并简化所得方程,得到所需的连续、一致和对称的显式混合方法。尝试用泰勒级数展开的方法推导同阶的起始值,以规避起始值为低阶的固有缺点。将该方法直接应用于求解线性、非线性、Duffing方程和方程组二阶初值问题。将所得结果与现有的同阶甚至更高阶隐式方法的误差进行了比较。对比表明,新方法的精度优于现有方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Continuous Explicit Hybrid Method for Solving Second Order Ordinary Differential Equations
This paper presents an explicit hybrid method for direct approximation of second order ordinary differential equations. The approach adopted in this work is by interpolation and collocation of a basis function and its corresponding differential system respectively. Interpolation of the basis function was done at both grid and off-grid points while the differential systems are collocated at selected points. Substitution of the unknown parameters into the basis function and simplification of the resulting equation produced the required continuous, consistent and symmetric explicit hybrid method. Attempts were made to derive starting values of the same order with the methods using Taylor’s series expansion to circumvent the inherent disadvantage of starting values of lower order. The methods were applied to solve linear, non-linear, Duffing equation and a system of equation second-order initial value problems directly. Errors in the results obtained were compared with those of the existing implicit methods of the same and even of higher order. The comparison shows that the accuracy of the new method is better than the existing methods.
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来源期刊
CiteScore
0.60
自引率
0.00%
发文量
2
期刊介绍: The “Italian Journal of Pure and Applied Mathematics” publishes original research works containing significant results in the field of pure and applied mathematics.
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