Gauss-type quadrature rules with respect to external zeros of the integrand

IF 0.8 4区 数学 Q3 MATHEMATICS, APPLIED
Jelena Tomanović
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引用次数: 0

Abstract

In the present paper, we propose a Gauss-type quadrature rule into which the external zeros of the integrand (the zeros of the integrand outside the integration interval) are incorporated. This new formula with $n$ nodes, denoted by $\mathcal G_n$, proves to be exact for certain polynomials of degree greater than $2n-1$ (while the Gauss quadrature formula with the same number of nodes is exact for all polynomials of degree less than or equal to $2n-1$). It turns out that $\mathcal G_n$ has several good properties: all its nodes are pairwise distinct and belong to the interior of the integration interval, all its weights are positive, it converges, and it is applicable both when the external zeros of the integrand are known exactly and when they are known approximately. In order to economically estimate the error of $\mathcal G_n$, we construct its extensions that inherit the $n$ nodes of $\mathcal G_n$ and that are analogous to the Gauss-Kronrod, averaged Gauss, and generalized averaged Gauss quadrature rules. Further, we show that $\mathcal G_n$ with respect to the pairwise distinct external zeros of the integrand represents a special case of the (slightly modified) Gauss quadrature formula with preassigned nodes. The accuracy of $\mathcal G_n$ and its extensions is confirmed by numerical experiments.
关于被积函数外零的高斯型正交规则
在本文中,我们提出了一个将被积函数的外零点(被积函数在积分区间外的零点)纳入其中的高斯型积分规则。这个有$n$节点的新公式,用$\mathcal G_n$表示,证明对大于$2n-1$的某些多项式是精确的(而具有相同节点数的高斯正交公式对小于或等于$2n-1$的所有多项式是精确的)。结果表明,$\mathcal G_n$有几个很好的性质:它的所有节点都是两两不同的,并且属于积分区间的内部,它的所有权值都是正的,它是收敛的,当被积函数的外部零确切已知和近似已知时,它都是适用的。为了经济地估计$\mathcal G_n$的误差,我们构造了它的扩展,继承$\mathcal G_n$的$n$节点,并类似于高斯- kronrod、平均高斯和广义平均高斯正交规则。进一步,我们证明了$\mathcal G_n$关于被积函数的两两不同的外部零表示带有预分配节点的高斯正交公式的一种特殊情况(稍作修改)。通过数值实验验证了$\mathcal G_n$及其扩展的准确性。
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
CiteScore
2.10
自引率
7.70%
发文量
36
审稿时长
6 months
期刊介绍: Electronic Transactions on Numerical Analysis (ETNA) is an electronic journal for the publication of significant new developments in numerical analysis and scientific computing. Papers of the highest quality that deal with the analysis of algorithms for the solution of continuous models and numerical linear algebra are appropriate for ETNA, as are papers of similar quality that discuss implementation and performance of such algorithms. New algorithms for current or new computer architectures are appropriate provided that they are numerically sound. However, the focus of the publication should be on the algorithm rather than on the architecture. The journal is published by the Kent State University Library in conjunction with the Institute of Computational Mathematics at Kent State University, and in cooperation with the Johann Radon Institute for Computational and Applied Mathematics of the Austrian Academy of Sciences (RICAM).
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