Finite and periodic orbits of shift radix systems

About the paper

coauthors Peter Kirschenhofer
Attila Pethő
Jörg M. Thuswaldner
language English
published in Journal de Théorie des Nombres de Bordeaux 22 (2010)
pages 421 to 448
DOI 10.5802/jtnb.725
supported by FWF, project S9610 (NFN S9600)
FAPESP, process 2009/07744-0

Abstract

For r=(r0,…,rd-1)Rd define the function
τr: ZdZd, z=(z0,…,zd-1)→(z1,…,zd-1,−⌊rz⌋),
where rz is the scalar product of the vectors r and z. If each orbit of τr ends up at 0, we call τr a shift radix system. It is a well-known fact that each orbit of τr ends up periodically if the polynomial td+rd-1td-1++r0 associated to r is contractive. On the other hand, whenever this polynomial has at least one root outside the unit circle, there exist starting vectors that give rise to unbounded orbits. The present paper deals with the remaining situations of periodicity properties of the mappings τr for vectors r associated to polynomials whose roots have modulus less than or equal to one with equality in at least one case. We show that for a large class of vectors r belonging to the above class the ultimate periodicity of the orbits of τr is equivalent to the fact that τs is a shift radix system or has another prescribed orbit structure for a certain parameter s related to r. These results are combined with new algorithmic results in order to characterise vectors r of the above class that give rise to ultimately periodic orbits of τr for each starting value. In particular, we work out the description of these vectors r for the case d = 3. This leads to sets which seem to have a very intricate structure.

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Links

Journal de Théorie des Nombres de Bordeaux
Austrian Science Foundation (FWF)
National Research Network (NFN) S9600
Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)