A comparative study of Filon-type rules for oscillatory integrals

Journal of Numerical Analysis and Approximation Theory Pub Date : 2024-03-06 DOI:10.33993/jnaat531-1380
H. Majidian
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Abstract

Our aim is to answer the following question: "Among the Filon-type methods for computing oscillatory integrals, which one is the most efficient in practice?". We first discuss why we should seek the answer among the family of Filon-Clenshaw-Curtis rules. A theoretical analysis accompanied by a set of numerical experiments reveals that the plain Filon-Clenshaw-Curtis rules reach a given accuracy faster than the (adaptive) extended Filon-Clenshaw-Curtis rules. The comparison is based on the CPU run-time for certain wave numbers (medium and large).
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振荡积分的菲隆型规则比较研究
我们的目的是回答以下问题:"在计算振荡积分的菲隆类方法中,哪种方法在实践中最有效?我们首先讨论为什么要在菲隆-克伦肖-柯蒂斯规则家族中寻找答案。理论分析和一组数值实验表明,普通菲隆-克伦肖-柯蒂斯规则比(自适应)扩展菲隆-克伦肖-柯蒂斯规则更快达到给定精度。比较基于某些波数(中、大)的 CPU 运行时间。
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Journal of Numerical Analysis and Approximation Theory
Journal of Numerical Analysis and Approximation Theory
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Adaptation of the composite finite element framework for semilinear parabolic problems A comparative study of Filon-type rules for oscillatory integrals Local convergence analysis of frozen Steffensen-type methods under generalized conditions Extension of primal-dual interior point method based on a kernel function for linear fractional problem Nonlinear random extrapolation estimates of \(\pi\) under Dirichlet distributions
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