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Approximation Results: Szász–Kantorovich Operators Enhanced by Frobenius–Euler–Type Polynomials

Nadeem Rao, Mohammad Farid, Mohd Raiz

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Abstract

This research focuses on the approximation properties of Kantorovich-type operators using Frobenius–Euler–Simsek polynomials. The test functions and central moments are calculated as part of this study. Additionally, uniform convergence and the rate of approximation are analyzed using the classical Korovkin theorem and the modulus of continuity for Lebesgue measurable and continuous functions. A Voronovskaja-type theorem is also established to approximate functions with first- and second-order continuous derivatives. Numerical and graphical analyses are presented to support these findings. Furthermore, a bivariate sequence of these operators is introduced to approximate a bivariate class of Lebesgue measurable and continuous functions in two variables. Finally, numerical and graphical representations of the error are provided to check the rapidity of convergence.

Topics & Concepts

MathematicsType (biology)Euler's formulaClassical orthogonal polynomialsWilson polynomialsPure mathematicsOrthogonal polynomialsAlgebra over a fieldMathematical analysisBiologyEcologyApproximation Theory and Sequence SpacesIterative Methods for Nonlinear EquationsMathematical functions and polynomials
Approximation Results: Szász–Kantorovich Operators Enhanced by Frobenius–Euler–Type Polynomials | Litcius