Email this article Uniform Lebesgue Constants of Local Spline Approximation
- Authors: Shevaldin V.T.1
-
Affiliations:
- Krasovskii Institute of Mathematics and Mechanics
- Issue: Vol 303, No Suppl 1 (2018)
- Pages: 196-202
- Section: Article
- URL: https://journals.rcsi.science/0081-5438/article/view/175721
- DOI: https://doi.org/10.1134/S0081543818090201
- ID: 175721
Cite item
Open Access
Access granted
Subscription Access
Abstract
Let a function ϕ ∈ C1[−h, h] be such that ϕ(0) = ϕ'(0) = 0, ϕ(−x) = ϕ(x) for x ∈ [0; h], and ϕ(x) is nondecreasing on [0; h]. For any function f: ℝ → ℝ, we consider local splines of the form
\(S(x) = {S_\varphi }(f,x) = \sum\limits_{j \in mathbb{Z}} {{y_i}{B_\varphi }(x + \frac{{3h}}{2} - jh)(x \in \mathbb{R}),} \)![]()
where yj = f(jh), m(h) > 0, and \(B_{\varphi}(x)=m(h) \begin{cases}\varphi(x), & x \in [0;h],\\ 2\varphi (h) - \varphi(x-h) - \varphi(2h-x),& x \in [h;2h],\\ \varphi(3h -x), & x\in[2h;3h],\\ 0, &x\notin [0; 3h].\end{cases}\)![]()
These splines become parabolic, exponential, trigonometric, etc., under the corresponding choice of the function ϕ. We study the uniform Lebesgue constants Lϕ = ||S||CC (the norms of linear operators from C to C) of these splines as functions depending on ϕ and h. In some cases, the constants are calculated exactly on the axis ℝ and on a closed interval of the real line (under a certain choice of boundary conditions from the spline Sϕ(f, x)).Keywords
About the authors
V. T. Shevaldin
Krasovskii Institute of Mathematics and Mechanics
Author for correspondence.
Email: Valerii.Shevaldin@imm.uran.ru
Russian Federation, Yekaterinburg, 620990
Supplementary files
