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Volume 33, Issue 1
Nearly Comonotone Approximation of Periodic Functions

G. A. Dzyubenko

Anal. Theory Appl., 33 (2017), pp. 74-92.

Published online: 2017-01

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  • Abstract

Suppose that a continuous $2\pi$-periodic function $f$ on the real axis changes its monotonicity at points $y_i: -\pi\le y_{2s}< y_{2s-1}< \cdots< y_1<\pi,\ s\in\Bbb N$. In this paper, for each $n\ge N,$ a trigonometric polynomial $P_n$ of order $cn$ is found such that: $P_n$ has the same monotonicity as $f,$ everywhere except, perhaps, the small intervals$$(y_i-\pi/n,y_i+\pi/n)$$and$$\|f-P_n\|\le c(s)\omega_3(f,\pi/n),$$where $N$ is a constant depending only on $\min\limits_{i=1,\cdots,2s}\{y_i-y_{i+1}\},\ c,\ c(s)$ are constants depending only on $s,\ \omega_3(f,\cdot)$ is the modulus of smoothness of the $3$-rd order of the function $f,$ and $\|\cdot\|$ is the max-norm.

  • AMS Subject Headings

41A10, 41A17, 41A25, 41A29

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COPYRIGHT: © Global Science Press

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@Article{ATA-33-74, author = {}, title = {Nearly Comonotone Approximation of Periodic Functions}, journal = {Analysis in Theory and Applications}, year = {2017}, volume = {33}, number = {1}, pages = {74--92}, abstract = {

Suppose that a continuous $2\pi$-periodic function $f$ on the real axis changes its monotonicity at points $y_i: -\pi\le y_{2s}< y_{2s-1}< \cdots< y_1<\pi,\ s\in\Bbb N$. In this paper, for each $n\ge N,$ a trigonometric polynomial $P_n$ of order $cn$ is found such that: $P_n$ has the same monotonicity as $f,$ everywhere except, perhaps, the small intervals$$(y_i-\pi/n,y_i+\pi/n)$$and$$\|f-P_n\|\le c(s)\omega_3(f,\pi/n),$$where $N$ is a constant depending only on $\min\limits_{i=1,\cdots,2s}\{y_i-y_{i+1}\},\ c,\ c(s)$ are constants depending only on $s,\ \omega_3(f,\cdot)$ is the modulus of smoothness of the $3$-rd order of the function $f,$ and $\|\cdot\|$ is the max-norm.

}, issn = {1573-8175}, doi = {https://doi.org/10.4208/ata.2017.v33.n1.7}, url = {http://global-sci.org/intro/article_detail/ata/4617.html} }
TY - JOUR T1 - Nearly Comonotone Approximation of Periodic Functions JO - Analysis in Theory and Applications VL - 1 SP - 74 EP - 92 PY - 2017 DA - 2017/01 SN - 33 DO - http://doi.org/10.4208/ata.2017.v33.n1.7 UR - https://global-sci.org/intro/article_detail/ata/4617.html KW - Periodic functions, comonotone approximation, trigonometric polynomials, Jackson-type estimates. AB -

Suppose that a continuous $2\pi$-periodic function $f$ on the real axis changes its monotonicity at points $y_i: -\pi\le y_{2s}< y_{2s-1}< \cdots< y_1<\pi,\ s\in\Bbb N$. In this paper, for each $n\ge N,$ a trigonometric polynomial $P_n$ of order $cn$ is found such that: $P_n$ has the same monotonicity as $f,$ everywhere except, perhaps, the small intervals$$(y_i-\pi/n,y_i+\pi/n)$$and$$\|f-P_n\|\le c(s)\omega_3(f,\pi/n),$$where $N$ is a constant depending only on $\min\limits_{i=1,\cdots,2s}\{y_i-y_{i+1}\},\ c,\ c(s)$ are constants depending only on $s,\ \omega_3(f,\cdot)$ is the modulus of smoothness of the $3$-rd order of the function $f,$ and $\|\cdot\|$ is the max-norm.

G. A. Dzyubenko. (1970). Nearly Comonotone Approximation of Periodic Functions. Analysis in Theory and Applications. 33 (1). 74-92. doi:10.4208/ata.2017.v33.n1.7
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