2017
Том 69
№ 9

All Issues

Rate of convergence of Fourier series on the classes of $\overline{\psi}$-integrals

Stepanets O. I.

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Abstract

We introduce the notion of $\overline{\psi}$-integrals of 2π-periodic summable functions f, f ε L, on the basis of which the space L is decomposed into subsets (classes) $L^{\overline{\psi}}$. We obtain integral representations of deviations of the trigonometric polynomials $U_{n(f;x;Λ)}$ generated by a given Λ-method for summing the Fourier series of functions $f ε L^{\overline{\psi}}$. On the basis of these representations, the rate of convergence of the Fourier series is studied for functions belonging to the sets $L^{\overline{\psi}}$ in uniform and integral metrics. Within the framework of this approach, we find, in particular, asymptotic equalities for upper bounds of deviations of the Fourier sums on the sets $L^{\overline{\psi}}$, which give solutions of the Kolmogorov-Nikol'skii problem. We also obtain an analog of the well-known Lebesgue inequality.

English version (Springer): Ukrainian Mathematical Journal 49 (1997), no. 8, pp 1201-1251.

Citation Example: Stepanets O. I. Rate of convergence of Fourier series on the classes of $\overline{\psi}$-integrals // Ukr. Mat. Zh. - 1997. - 49, № 8. - pp. 1069-1113.

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