A numerical algorithm for solitary wave solutions of the GEW equation

IF 0.9 Q2 MATHEMATICS
Melike Karta
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引用次数: 0

Abstract

The present article attempts to obtain numerical solutions for the GEW equation with the Lie–Trotter splitting algorithm. For this reason, in accordance with the rules of the algorithm, the main problem is split into two sub-equations, linear and non-linear. By applying Galerkin finite element method with cubic B-spline to each sub-equation, two numerical schemes are obtained and two problems for them are discussed. Error norms \(L_{2}\) and \(L_{\infty }\) and three conservation properties \(I_{1},I_{2}\) and \(I_{3}\) are calculated to measure the reliability and performance of the proposed technique and find new approximate solutions. The results generated as a result of the calculation are compared with those produced by other methods in the literature. Stability analysis is examined using the Fourier method to indicate that the numerical approach is unconditionally stable. Based on the results obtained, it can be seen that this technique may be preferred to be applied to other partial differential equations such as the equation discussed in the current study.

GEW方程孤波解的数值算法
本文试图用Lie-Trotter分裂算法求得GEW方程的数值解。因此,根据算法的规则,将主要问题分为线性和非线性两个子方程。将三次b样条伽辽金有限元法应用于各子方程,得到两种数值格式,并讨论了它们的两个问题。计算误差范数\(L_{2}\)和\(L_{\infty }\)以及三个守恒性质\(I_{1},I_{2}\)和\(I_{3}\)来衡量所提出的技术的可靠性和性能,并找到新的近似解。将计算结果与文献中其他方法的计算结果进行了比较。用傅里叶方法进行了稳定性分析,表明数值方法是无条件稳定的。根据所获得的结果,可以看出,该技术可能更倾向于应用于其他偏微分方程,如当前研究中讨论的方程。
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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来源期刊
Afrika Matematika
Afrika Matematika MATHEMATICS-
CiteScore
2.00
自引率
9.10%
发文量
96
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