ON APPROXIMATION OF FUNCTIONS FROM ZYGMUND CLASSES BY BIHARMONIC POISSON INTEGRALS

Q3 Engineering

Journal of Automation and Information Sciences Pub Date : 2021-07-01 DOI:10.34229/1028-0979-2021-4-8

B. Borsuk, A. Khanin

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引用次数: 0

Abstract

The paper is devoted to a behavior investigation of the upper bound of deviation of functions from Zygmund classes from their biharmonic Poisson integrals. Systematic research in this direction was conducted by a number of Ukrainian as well as foreign scientists. But most of the known results relate to an estimation of deviations of functions from different classes from operators that were constructed based on triangular l-methods of the Fourier series summation (Fejer, Valle Poussin, Riesz, Rogozinsky, Steklov, Favard, etc.). Concerning the results relating to linear methods of the Fourier series summation, given by a set of functions of natural argument (Abel-Poisson, Gauss-Weierstrass, biharmonic and threeharmonic Poisson integrals), in this direction the progress was less notable. This may be due to the fact that the above-mentioned linear methods the Fourier series summation are solutions of corresponding integral and differential equations of elliptic type. And, therefore, they require more time-consuming calculations in order to obtain some estimates, that are suitable for a direct use for applied purposes. At the same time, in the present paper we investigate approximative characteristics of linear positive Poisson-type operators on Zygmund classes of functions. According to the well-known results by P.P. Korovkin, these positive linear operators realize the best asymptotic approximation of functions from Zygmund classes. Thus, the estimate obtained in this paper for the deviation of functions from Zygmund classes from their biharmonic Poisson integrals (the least studied and most valuable among all linear positive operators) is relevant from the viewpoint of applied mathematics.

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用双调和泊松积分逼近zygmund类函数

本文研究了Zygmund类函数偏离双调和泊松积分上界的行为。一些乌克兰和外国科学家在这方面进行了系统的研究。但是，大多数已知的结果与基于傅立叶级数求和的三角l-方法(Fejer, Valle Poussin, Riesz, Rogozinsky, Steklov, Favard等)构造的不同类别的函数的偏差估计有关。关于傅里叶级数和的线性方法的结果，由一组自然参数函数(Abel-Poisson, Gauss-Weierstrass，双调和和三调和泊松积分)给出，在这个方向上的进展不太显著。这可能是由于上述线性方法的傅里叶级数求和是相应的椭圆型积分方程和微分方程的解。因此，它们需要更耗时的计算，以便获得一些适合直接用于应用目的的估计。同时，本文研究了Zygmund函数类上线性正泊松型算子的近似性质。根据P.P. Korovkin的著名结果，这些正线性算子实现了Zygmund类中函数的最佳渐近逼近。因此，本文对Zygmund类的函数偏离其双调和泊松积分(所有线性正算子中研究最少但最有价值的一种)的估计具有应用数学的意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Automation and Information Sciences AUTOMATION & CONTROL SYSTEMS-

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： This journal contains translations of papers from the Russian-language bimonthly "Mezhdunarodnyi nauchno-tekhnicheskiy zhurnal "Problemy upravleniya i informatiki". Subjects covered include information sciences such as pattern recognition, forecasting, identification and evaluation of complex systems, information security, fault diagnosis and reliability. In addition, the journal also deals with such automation subjects as adaptive, stochastic and optimal control, control and identification under uncertainty, robotics, and applications of user-friendly computers in management of economic, industrial, biological, and medical systems. The Journal of Automation and Information Sciences will appeal to professionals in control systems, communications, computers, engineering in biology and medicine, instrumentation and measurement, and those interested in the social implications of technology.