A new complexity function, repetitions in Sturmian words, and irrationality exponents of Sturmian numbers

AbstractLetx0<x1<x2< ⋅⋅⋅ be an increasing sequence of positive integers given by the formulaxn=⌊βxn−1+ γ⌋ forn=1, 2, 3, . . ., where β > 1 and γ are real numbers andx0is a positive integer. We describe the conditions on integersbd, . . .,b0, not all zero, and on a real number β > 1 under which the sequence of integerswn=bdxn+d+ ⋅⋅⋅ +b0xn,n=0, 1, 2, . . ., is bounded by a constant independent ofn. The conditions under which this sequence can be ultimately periodic are also described. Finally, we prove a lower bound on the complexity function of the sequenceqxn+1−pxn∈ {0, 1, . . .,q−1},n=0, 1, 2, . . ., wherex0is a positive integer,p>q> 1 are coprime integers andxn=⌈pxn−1/q⌉ forn=1, 2, 3, . . . A similar speculative result concerning the complexity of the sequence of alternatives (F:x↦x/2 orS:x↦(3x+1)/2) in the 3x+1 problem is also given.

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About the Complexity Function in Small-ball Probability Factorization

Functional and High-Dimensional Statistics and Related Fields - Contributions to Statistics ◽

10.1007/978-3-030-47756-1_5 ◽

2020 ◽

pp. 27-33

Author(s):

Enea G. Bongiorno ◽

Aldo Goia ◽

Philippe Vieu

Keyword(s):

Small Ball Probability ◽

Small Ball ◽

Complexity Function

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The Maximal Number of Runs in Standard Sturmian Words

The Electronic Journal of Combinatorics ◽

10.37236/2473 ◽

2013 ◽

Vol 20 (1) ◽

Cited By ~ 3

Author(s):

Paweł Baturo ◽

Marcin Piątkowski ◽

Wojciech Rytter

Keyword(s):

Explicit Formula ◽

Special Class ◽

Linear Time ◽

Infinite Sequence ◽

Integer Sequence ◽

Sturmian Word ◽

Compact Representations ◽

Sturmian Words ◽

Standard Word

We investigate some repetition problems for a very special class $\mathcal{S}$ of strings called the standard Sturmian words, which have very compact representations in terms of sequences of integers. Usually the size of this word is exponential with respect to the size of its integer sequence, hence we are dealing with repetition problems in compressed strings. An explicit formula is given for the number $\rho(w)$ of runs in a standard word $w$. We show that $\rho(w)/|w|\le 4/5$ for each $w\in S$, and there is an infinite sequence of strictly growing words $w_k\in {\mathcal{S}}$ such that $\lim_{k\rightarrow \infty} \frac{\rho(w_k)}{|w_k|} = \frac{4}{5}$. Moreover, we show how to compute the number of runs in a standard Sturmian word in linear time with respect to the size of its compressed representation.

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A geometrical approach of palindromic factors of standard billiard words

Discrete Mathematics & Theoretical Computer Science ◽

10.46298/dmtcs.410 ◽

2007 ◽

Vol Vol. 9 no. 2 ◽

Author(s):

Jean-Pierre Borel

Keyword(s):

Geometrical Approach ◽

International Audience ◽

Sturmian Words

International audience Many results are already known, concerning the palindromic factors and the palindomic prefixes of Standard billiard words, i.e., Sturmian words and billiard words in any dimension, starting at the origin. We give new geometrical proofs of these results, especially for the existence in any dimension of Standard billiard words with arbitrary long palindromic prefixes.

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Some Characterizations of Sturmian Words in Terms of the Lexicographic Order

Fundamenta Informaticae ◽

10.3233/fi-2012-665 ◽

2012 ◽

Vol 116 (1-4) ◽

pp. 25-33 ◽

Cited By ~ 3

Author(s):

Michelangelo Bucci ◽

Alessandro De Luca ◽

Luca Q. Zamboni

Keyword(s):

Lexicographic Order ◽

Sturmian Words

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On the Index of Sturmian Words

Jewels are Forever ◽

10.1007/978-3-642-60207-8_25 ◽

1999 ◽

pp. 287-294 ◽

Cited By ~ 12

Author(s):

Jean Berstel

Keyword(s):

Sturmian Words

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Subshifts on Infinite Alphabets and Their Entropy

Entropy ◽

10.3390/e22111293 ◽

2020 ◽

Vol 22 (11) ◽

pp. 1293

Author(s):

Sharwin Rezagholi

Keyword(s):

Growth Rate ◽

Markov Chains ◽

Topological Entropy ◽

Spectral Radius ◽

Symbolic Dynamics ◽

Infinite Graphs ◽

Complexity Function ◽

Countably Infinite

We analyze symbolic dynamics to infinite alphabets by endowing the alphabet with the cofinite topology. The topological entropy is shown to be equal to the supremum of the growth rate of the complexity function with respect to finite subalphabets. For the case of topological Markov chains induced by countably infinite graphs, our approach yields the same entropy as the approach of Gurevich We give formulae for the entropy of countable topological Markov chains in terms of the spectral radius in l2.

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