OPTIMIZED FIRST-ORDER TAYLOR-LIKE FORMULAS AND GAUSS QUADRATURE ERRORS

Joël Chaskalovic; Franck Assous

doi:10.4208/ijnam2025-1036

OPTIMIZED FIRST-ORDER TAYLOR-LIKE FORMULAS AND GAUSS QUADRATURE ERRORS

Joël Chaskalovic
, Franck Assous

Department of Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

In this article, we derive an optimal first-order Taylor-like formula. In a seminal paper [15], we introduced a new first-order Taylor-like formula that yields a reduced remainder compared to the classical Taylor’s formula. In this work, we relax the assumption of equally spaced points in our formula. Instead, we consider a sequence of unknown points and a sequence of unknown weights. We then solve an optimization problem to determine the optimal distribution of points and weights that minimizes the corresponding remainder. Numerical results are provided to illustrate our findings.

Original language	English
Pages (from-to)	824-842
Number of pages	19
Journal	International Journal of Numerical Analysis and Modeling
Volume	22
Issue number	6
DOIs	https://doi.org/10.4208/ijnam2025-1036
State	Published - 2025

Keywords

Taylor-like formula
Taylor’s theorem
approximation error
error estimate
finite elements
interpolation error

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10.4208/ijnam2025-1036

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title = "OPTIMIZED FIRST-ORDER TAYLOR-LIKE FORMULAS AND GAUSS QUADRATURE ERRORS",

abstract = "In this article, we derive an optimal first-order Taylor-like formula. In a seminal paper [15], we introduced a new first-order Taylor-like formula that yields a reduced remainder compared to the classical Taylor{\textquoteright}s formula. In this work, we relax the assumption of equally spaced points in our formula. Instead, we consider a sequence of unknown points and a sequence of unknown weights. We then solve an optimization problem to determine the optimal distribution of points and weights that minimizes the corresponding remainder. Numerical results are provided to illustrate our findings.",

keywords = "Taylor-like formula, Taylor{\textquoteright}s theorem, approximation error, error estimate, finite elements, interpolation error",

author = "Jo{\"e}l Chaskalovic and Franck Assous",

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AB - In this article, we derive an optimal first-order Taylor-like formula. In a seminal paper [15], we introduced a new first-order Taylor-like formula that yields a reduced remainder compared to the classical Taylor’s formula. In this work, we relax the assumption of equally spaced points in our formula. Instead, we consider a sequence of unknown points and a sequence of unknown weights. We then solve an optimization problem to determine the optimal distribution of points and weights that minimizes the corresponding remainder. Numerical results are provided to illustrate our findings.

KW - Taylor-like formula

KW - Taylor’s theorem

KW - approximation error

KW - error estimate

KW - finite elements

KW - interpolation error

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JO - International Journal of Numerical Analysis and Modeling

JF - International Journal of Numerical Analysis and Modeling

IS - 6

ER -

OPTIMIZED FIRST-ORDER TAYLOR-LIKE FORMULAS AND GAUSS QUADRATURE ERRORS

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Keywords

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