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Individual Gap Measures from Generalized Zeckendorf Degompositions

Robert Dorward

Robert Dorward

Dept. of Mathematics, Oberlin College,Oberlin, USA
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Dorward, Robert
, 
Pari L. Ford

Pari L. Ford

Dept. of Mathematics and Physics, Bethany College,Lindshorg, USA
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Ford, Pari L.
, 
Eva Fourakis

Eva Fourakis

Dept. of Mat.hematatics and Statistics, Williams College,Williamstown, USA
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Fourakis, Eva
, 
Pamela E. Harris

Pamela E. Harris

Dept. of Mathematical Sciences, United States Military Academy,West Point, USA
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Harris, Pamela E.
, 
Steven. J. Miller

Steven. J. Miller

Dept. of Mathematics and Statistics, Williams College,Williamstown, USA
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Miller, Steven. J.
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Eyvindur A. Palsson

Eyvindur A. Palsson

Dept. of Mathematics and Statistics, Williams College,Williamstown, USA
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Palsson, Eyvindur A.
 y 
Hannah Paugh

Hannah Paugh

Dept. of Mathematical Sciences, United States Military Academy,West Point, USA
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Paugh, Hannah
  
22 jul 2017
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Categoría del artículo: Dedicated to the fifth international conference on Uniform Distribution Theory (UDT 2016) Sopron, Hungary, July 5–8, 2016
Publicado en línea: 22 jul 2017
Páginas: 27 - 36
Recibido: 01 ago 2015
Aceptado: 14 dic 2015
DOI: https://doi.org/10.1515/udt-2017-0002
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© 2017
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

Zeckendorf's theorem states that every positive integer can be decomposed uniquely as a sum of nonconsecutive Fibonacci numbers. The distribution of the number of summands converges to a Gaussian, and the individual measures on gajw between summands for m € [Fn,Fn+1) converge to geometric decay for almost all m as n→ ∞. While similar results are known for many other recurrences, previous work focused on proving Gaussianity for the number of summands or the average gap measure. We derive general conditions, which are easily checked, that yield geometric decay in the individual gap measures of generalized Zerkendorf decompositions attached to many linear recurrence relations.

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Inglés
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2 veces al año
Temas de la revista:
Matemáticas, Álgebra y teoría de números, Matemáticas discretas, Probabilidades y estadísticas, Matemáticas numéricas y computacionales
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