Fractal Interpolation on a Torus

M. Navascués

doi:10.1007/s10440-008-9284-5

Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

DeepDyve requires Javascript to function. Please enable Javascript on your browser to continue.

Fractal Interpolation on a Torus

Navascués, M.

Acta Applicandae Mathematicae , Volume 106 (1) – Aug 8, 2008

Read Article

Download PDF

Share Full Text for Free

12 pages

$A very general method of fractal interpolation on T 1 is proposed in the first place. The approach includes the classical cases using trigonometric functions, periodic splines, etc. but, at the same time, adds a diversity of fractal elements which may be more appropriate to model the complexity of some variables. Upper bounds of the committed error are provided. The arguments avoid the use of derivatives in order to handle a wider framework. The Lebesgue constant of the associated partition plays a key role. The procedure is proved convergent for the interpolation of specific functions with respect to some nodal bases. In a second part, the approximation is then extended to bidimensional tori via tensor product of interpolation spaces. Some sufficient conditions for the convergence of the process in the Fourier case are deduced.$

Loading next page...

References (9)

G. Lorentz (1968)
Approximation of Functions
N.P. Korneicuk (1962)
The exact constant in D. Jackson’s theorem on best uniform approximation of continuous periodic functions
Sov. Math. Dokl., 3
M. Navascués (2008)
Fractal interpolants on the unit circle
Appl. Math. Lett., 21
G. Alexits (1983)
Approximation theory
V. Dzyadyk, S. Dzyadyk, A. Prypik (1981)
Asymptotic behavior of Lebesgue constants in trigonometric interpolation
Ukrainian Mathematical Journal, 33
J. Szabados, P. Vértesi (1990)
Interpolation of Functions
M. Navascués, A. Chand (2008)
Fundamental Sets of Fractal Functions
Acta Applicandae Mathematicae, 100
M. Navascués (2006)
A FRACTAL APPROXIMATION TO PERIODICITY
Fractals, 14
V. Andrievskii (1981)
Geometric properties of V. K. Dzyadyk's regions
Ukrainian Mathematical Journal, 33

Publisher: Springer Journals
Subject: Mathematics; Mathematics, general; Computer Science, general; Theoretical, Mathematical and Computational Physics; Complex Systems; Classical Mechanics
ISSN: 0167-8019
eISSN: 1572-9036
DOI: 10.1007/s10440-008-9284-5
Publisher site: See Article on Publisher Site

Abstract

A very general method of fractal interpolation on T 1 is proposed in the first place. The approach includes the classical cases using trigonometric functions, periodic splines, etc. but, at the same time, adds a diversity of fractal elements which may be more appropriate to model the complexity of some variables. Upper bounds of the committed error are provided. The arguments avoid the use of derivatives in order to handle a wider framework. The Lebesgue constant of the associated partition plays a key role. The procedure is proved convergent for the interpolation of specific functions with respect to some nodal bases. In a second part, the approximation is then extended to bidimensional tori via tensor product of interpolation spaces. Some sufficient conditions for the convergence of the process in the Fourier case are deduced.

Journal

Acta Applicandae Mathematicae – Springer Journals

Published: Aug 8, 2008

Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

Fractal Interpolation on a Torus

Fractal Interpolation on a Torus

References (9)

Abstract

Journal

Recommended Articles

There are no references for this article.

Our policy towards the use of cookies