Linear approximation methods and the best approximations of the Poisson integrals of functions from the classes $H_{ω_p}$ in the metrics of the spaces $L_p$
Abstract
We obtain upper estimates for the least upper bounds of approximations of the classes of Poisson integrals of functions from $H_{ω_p}$ for $1 ≤ p < ∞$ by a certain linear method $U_n^{*}$ in the metric of the space $L_p$. It is shown that the obtained estimates are asymptotically exact for $р = 1$: In addition, we determine the asymptotic equalities for the best approximations of the classes of Poisson integrals of functions from $H_{ω_1}$ in the metric of the space $L_1$ and show that, for these classes, the method $U_n^{*}$ is the best polynomial approximation method in a sense of strong asymptotic behavior.
Published
25.07.2010
How to Cite
SerdyukA. S., and SokolenkoI. V. “Linear Approximation Methods and the Best Approximations of the Poisson Integrals of Functions from the Classes $H_{ω_p}$ in the Metrics of the Spaces $L_p$”. Ukrains’kyi Matematychnyi Zhurnal, Vol. 62, no. 7, July 2010, pp. 979–996, https://umj.imath.kiev.ua/index.php/umj/article/view/2930.
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Section
Research articles