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http://dx.doi.org/10.22771/nfaa.2021.26.05.05

A TRIPLE MIXED QUADRATURE BASED ADAPTIVE SCHEME FOR ANALYTIC FUNCTIONS  

Mohanty, Sanjit Kumar (Department of Mathematics, B.S Degree College)
Publication Information
Nonlinear Functional Analysis and Applications / v.26, no.5, 2021 , pp. 935-947 More about this Journal
Abstract
An efficient adaptive scheme based on a triple mixed quadrature rule of precision nine for approximate evaluation of line integral of analytic functions has been constructed. At first, a mixed quadrature rule SM1(f) has been formed using Gauss-Legendre three point transformed rule and five point Booles transformed rule. A suitable linear combination of the resulting rule and Clenshaw-Curtis seven point rule gives a new mixed quadrature rule SM10(f). This mixed rule is termed as triple mixed quadrature rule. An adaptive quadrature scheme is designed. Some test integrals having analytic function integrands have been evaluated using the triple mixed rule and its constituent rules in non-adaptive mode. The same set of test integrals have been evaluated using those rules as base rules in the adaptive scheme. The triple mixed rule based adaptive scheme is found to be the most effective.
Keywords
Gauss-Legendre 3-point transformed rule; mixed quadrature rule; Clenshaw-Curtis 7-point rule; $SM_{10}(f)$;
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