Approximation of classes of Poisson integrals by Fejer means

Rovenska, O. G.

doi:10.26565/2221-5646-2023-97-01

MAMM

2023

DOI: 10.26565/2221-5646-2023-97-01

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Approximation of classes of Poisson integrals by Fejer means

O. G. Rovenska

Abstract: The work is devoted to the investigation of problem of approximation of continuous periodic functions by trigonometric polynomials, which are generated by linear methods of summation of Fourier series. The simplest example of a linear approximation of periodic functions is the approximation of functions by partial sums of their Fourier series. However, the sequences of partial Fourier sums are not uniformly convergent over the class of continuous periodic functions. Therefore, a many studies is devoted to the … Show more

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2024

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Cited by 2 publications

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Approximation of classes of Poisson integrals by rectangular Fejér means

Rovenska

2024

Front. Appl. Math. Stat.

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The article is devoted to the problem of approximation of classes of periodic functions by rectangular linear means of Fourier series. Asymptotic equalities are found for upper bounds of deviations in the uniform metric of rectangular Fejér means on classes of periodic functions of several variables generated by sequences that tend to zero at the rate of geometric progression. In one-dimensional cases, these classes consist of Poisson integrals, namely functions that can be regularly extended in the fixed strip of a complex plane.

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Approximation of classes of Poisson integrals by rectangular Fejér means

Rovenska

2024

Front. Appl. Math. Stat.

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Asymptotic estimates for deviations of Fejér means on Poisson integrals

Rovenska

2024

Proc. IAMM NASU

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The work is devoted to the investigation of problem of approximation of continuous periodic functions of a real variable by trigonometric polynomials generated by linear methods of summation of Fourier series. The simplest example of the process of linear approximation of periodic functions is approximation of functions by partial sums of their Fourier series. However, sequences of partial Fourier sums are not uniformly convergent on the whole class of continuous periodic functions. Therefore, numerous studies are devoted to the study of approximation properties of approximating methods, which are generated by different transformations of sequences of partial sums of the Fourier series and allow obtaining sequences of trigonometric polynomials that are uniformly convergent for the entire class of continuous functions. In particular, Fejér means have been intensively studied in recent decades. One of the important tasks in this direction is study of the asymptotic behavior of the upper bounds of the deviations of trigonometric polynomials for a fixed class of periodic functions. The aim of the work is to systematize the known results concerning the approximation of classes of periodic functions of high smoothness by arithmetic means of Fourier sums, and to present new facts obtained for a more general case. In paper we investigate the asymptotic behavior of upper bounds on classes of Poisson integrals of periodic functions of real variable of deviations of linear means of Fourier series, which are constructed using the Fejér summation method. We study the classes consist of analytic functions of a real variable, which can be regularly extended into the corresponding strip of the complex plane. In the work, asymptotic inequalities for the upper bounds of the deviations of the Fejér means on the class of Poisson integrals were found. In certain case of parameters defining the class, the obtained formulas coincide with previously known asymptotic equalities.

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Approximation of classes of Poisson integrals by Fejer means

Cited by 2 publications

References 8 publications

Approximation of classes of Poisson integrals by rectangular Fejér means

Approximation of classes of Poisson integrals by rectangular Fejér means

Asymptotic estimates for deviations of Fejér means on Poisson integrals

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