On the <i>q</I>-bernstein Polynomials of Rational Functions With Real Poles
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Date
2014
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Academic Press inc Elsevier Science
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Green Open Access
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Abstract
The paper aims to investigate the convergence of the q-Bernstein polynomials B-n,B-q(f; x) attached to rational functions in the case q > 1. The problem reduces to that for the partial fractions (x - alpha)(-J), j is an element of N. The already available results deal with cases, where either the pole a is simple or alpha not equal q(-m), m is an element of N-0. Consequently, the present work is focused on the polynomials Bn,q(f; x) for the functions of the form f (x) = (x - q(-m))(-j) with j >= 2. For such functions, it is proved that the interval of convergence of {B-n,B-q(f; x)} depends not only on the location, but also on the multiplicity of the pole - a phenomenon which has not been considered previously. (C) 2013 Elsevier Inc. All rights reserved.
Description
Keywords
q-Integer, q-Bernstein polynomial, Convergence, Approximation of unbounded functions, Rational function, Multiple pole, \(q\)-Bernstein polynomial, Approximation by polynomials, convergence, rational function, \(q\)-integer, approximation of unbounded functions, multiple pole
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Fields of Science
0101 mathematics, 01 natural sciences
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OpenCitations Citation Count
5
Source
Journal of Mathematical Analysis and Applications
Volume
413
Issue
2
Start Page
547
End Page
556
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CrossRef : 5
Scopus : 7
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