一类具有固定大延迟的奇异扰动差分方程的新型数值方案

E. Srinivas, K. Phaneendra
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引用次数: 0

摘要

提出了一种基于三角样条的计算技术,用于数值求解具有固定大延迟的层行为微分-差分方程。利用三角样条线在内部网格点的一阶导数的连续性来建立差分方程系统。在奇异扰动理论的帮助下,在差分方案中插入了一个拟合参数,以最小化求解中的误差。我们对该方法的收敛性进行了检验。我们还讨论了偏移或延迟对边界层的影响。我们统计了与文献中其他方法相比的最大绝对误差,并以图表形式显示了层行为,以证明所建议的数值方法的可行性。
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A Novel Numerical Scheme for a Class of Singularly Perturbed Differential-Difference Equations with a Fixed Large Delay
A trigonometric spline based computational technique is suggested for the numerical solution of layer behavior differential-difference equations with a fixed large delay. The continuity of the first order derivative of the trigonometric spline at the interior mesh point is used to develop the system of difference equations. With the help of singular perturbation theory, a fitting parameter is inserted into the difference scheme to minimize the error in the solution. The method is examined for convergence. We have also discussed the impact of shift or delay on the boundary layer. The maximum absolute errors in comparison to other approaches in the literature are tallied, and layer behavior is displayed in graphs, to demonstrate the feasibility of the suggested numerical method.
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来源期刊
CiteScore
1.20
自引率
50.00%
发文量
50
期刊最新文献
A Novel Numerical Scheme for a Class of Singularly Perturbed Differential-Difference Equations with a Fixed Large Delay On the class of pointwise and integrally loaded differential equations Erratum to: “Coefficients of multiple Fourier-Haar series and variational modulus of continuity” [Bulletin of the Karaganda University. Mathematics series, No. 4(112), 2023, pp. 21–29] Some properties of the one-dimensional potentials Factorization of abstract operators into two second degree operators and its applications to integro-differential equations
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