The Structure of Multiplicative Tilings of the Real Line

The Structure of Multiplicative Tilings of the Real Line

Suppose Ω , A ⊆ R \ 0 are two sets, both of mixed sign, that Ω is Lebesgue measurable and A is a discrete set. We study the problem of when A · Ω is a (multiplicative) tiling of the real line, that is when almost every real number can be uniquely written as a product a · ω , with a ∈ A , ω ∈ Ω . We...

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Veröffentlicht in:The Journal of fourier analysis and applications 2019-06, Vol.25 (3), p.1248-1265
Hauptverfasser: Kolountzakis, Mihail N., Wang, Yang
Format: Artikel
Sprache:eng
Schlagworte:
Abstract Harmonic Analysis
Approximations and Expansions
Fourier Analysis
Mathematical Methods in Physics
Mathematics
Mathematics and Statistics
Partial Differential Equations
Signal,Image and Speech Processing
Tiling
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Zusammenfassung:Suppose Ω , A ⊆ R \ 0 are two sets, both of mixed sign, that Ω is Lebesgue measurable and A is a discrete set. We study the problem of when A · Ω is a (multiplicative) tiling of the real line, that is when almost every real number can be uniquely written as a product a · ω , with a ∈ A , ω ∈ Ω . We study both the structure of the set of multiples A and the structure of the tile Ω . We prove strong results in both cases. These results are somewhat analogous to the known results about the structure of translational tiling of the real line. There is, however, an extra layer of complexity due to the presence of sign in the sets A and Ω , which makes multiplicative tiling roughly equivalent to translational tiling on the larger group Z 2 × R .
ISSN:1069-5869
1531-5851
DOI:10.1007/s00041-018-9608-4