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Generalized hypergroups and orthogonal polynomials

Part of: Commutative Banach algebras and commutative topological algebras Abstract harmonic analysis

Published online by Cambridge University Press:  09 April 2009

Rupert Lasser ,
Josef Obermaier  and
Holger Rauhut
Rupert Lasser
Affiliation:
GSF—National Research Center for Environment and HealthInstitute of Biomathematics and BiometryIngolstädter Landstrasse 1D-85764 NeuherbergGermanylasser@gsf.dejosef.obermaier@gsf.de
Josef Obermaier
Affiliation:
University of ViennaFaculty of MathematicsNuHAGNordbergstr. 15A-1090 ViennaAustriaholger.rauhut@univie.ac.at
Holger Rauhut
Affiliation:
University of ViennaFaculty of MathematicsNuHAGNordbergstr. 15A-1090 ViennaAustriaholger.rauhut@univie.ac.at
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Abstract

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The concept of semi-bounded generalized hypergroups (SBG hypergroups) is developed. These hypergroups are more special than generalized hypergroups introduced by Obata and Wildberger and more general than discrete hypergroups or even discrete signed hypergroups. The convolution of measures and functions is studied. In the case of commutativity we define the dual objects and prove some basic theorems of Fourier analysis. Furthermore, we investigate the relationship between orthogonal polynomials and generalized hypergroups. We discuss the Jacobi polynomials as an example.

Keywords

generalized hypergroupsemi-bounded generalized hypergroupbounded generalized hypergroupssigned hypergroupdiscrete hypergroupconvolutiondual objectFourier transformorthogonal polynomialsJacobi polynomials.

MSC classification

Secondary: 43A62: Hypergroups 43A99: None of the above, but in this section 46J10: Banach algebras of continuous functions, function algebras 33C80: Connections with groups and algebras, and related topics
Type
Research Article
Information
Journal of the Australian Mathematical Society , Volume 82 , Issue 3 , June 2007 , pp. 369 - 394
Copyright
Copyright © Australian Mathematical Society 2007

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