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Almost coconvex approximation of continuous periodic functions

If a

$2\pi$ -periodic function

$f$ continuous on the real axis changes its convexity at

$2s, s \in N$ , points

$y_i : \pi \leq y_{2s} < y_{2s-1} < . . . < y_1 < \pi$ , and, for all other

$i \in Z$ ,

$y_i$ are periodically defined, then, for every natural

$n \geq N_{y_i}}$ , we determine a trigonometric polynomial

$P_n$ of order cn such that

$P_n$ has the same convexity as

$f$ everywhere except, possibly, small neighborhoods of the points

$y_i : (y_i \p_i /n, y_i + \pi /n)$ , and

$\| f P_n\| \leq c(s) \omega 4(f, \pi /n)$ ,, where

$N_{y_i}}$ is a constant depending only on

$\mathrm{m}\mathrm{i}\mathrm{n}_{i = 1,...,2s}\{ y_i y_{i+1}\} , c$ and

$c(s)$ are constants depending only on

$s, \omega 4(f, \cdot )$ is the fourth modulus of smoothness of the function

$f$ , and

$\| \cdot \|$ is the max-norm.

25.03.2019

Research articles

Dzyubenko, H. A. “Almost Coconvex Approximation of Continuous Periodic Functions”. Ukrains’kyi Matematychnyi Zhurnal, vol. 71, no. 3, Mar. 2019, pp. 353-67, https://umj.imath.kiev.ua/index.php/umj/article/view/1444.

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