Bell and Shallit recently introduced the Lie complexity of an infinite word s as the function counting for each length the number of conjugacy classes of words whose elements are all factors of s. They proved, using algebraic techniques, that the Lie complexity is bounded above by the first difference of the factor complexity plus one; hence, it is uniformly bounded for words with linear factor complexity, and, in particular, it is at most 2 for Sturmian words, which are precisely the words with factor complexity n+1 for every n. In this note, we provide an elementary combinatorial proof of the result of Bell and Shallit and give an exact formula for the Lie complexity of Sturmian words.
On the Lie complexity of Sturmian words / De Luca, A.; Fici, G.. - In: THEORETICAL COMPUTER SCIENCE. - ISSN 0304-3975. - 938:(2022), pp. 81-85. [10.1016/j.tcs.2022.10.009]
On the Lie complexity of Sturmian words
De Luca, A.;
2022
Abstract
Bell and Shallit recently introduced the Lie complexity of an infinite word s as the function counting for each length the number of conjugacy classes of words whose elements are all factors of s. They proved, using algebraic techniques, that the Lie complexity is bounded above by the first difference of the factor complexity plus one; hence, it is uniformly bounded for words with linear factor complexity, and, in particular, it is at most 2 for Sturmian words, which are precisely the words with factor complexity n+1 for every n. In this note, we provide an elementary combinatorial proof of the result of Bell and Shallit and give an exact formula for the Lie complexity of Sturmian words.| File | Dimensione | Formato | |
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