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Combinatorial isomorphism between Fibonacci classes

Asep JuarnaVincent Vajnovszki

subject

Discrete mathematicsAlgebra and Number TheoryFibonacci numberApplied MathematicsHamiltonian pathCombinatoricsSet (abstract data type)Gray codesymbols.namesakeBijectionsymbolsOrder (group theory)IsomorphismBinary stringsAnalysisMathematics

description

Abstract In 1985 Simion and Schmidt showed that the set S n (T 3) of length n permutations avoiding the set of patterns T 3={123, 132, 213} is counted by (the second order) Fibonacci numbers. They also presented a constructive bijection between the set F n–1 of length (n–1) binary strings with no two consecutive 1s and S n (T 3). In 2005, Egge and Mansour generalized the first Simion-Simion’s result and showed that S n (T p ), the set of permutations avoiding the patterns T p ={12…p, 132, 213}, is counted by the (p–1)th order Fibonacci numbers. In this paper we extend the second Simion-Schmidt’s result by giving a bijection between the set of length (n–1) binary strings with no (p–1) consecutive 1s, and the set S n (T p ). Moreover, we show that this bijection is a combinatorial isomorphism, i.e., a closeness-preserving bijection, by which we transform a known Gray code (or equivalently Hamiltonian path) and exhaustive generating algorithm for into similar results for S n (T p ).

yearjournalcountryeditionlanguage
2008-04-01Journal of Discrete Mathematical Sciences and Cryptography
https://doi.org/10.1080/09720529.2008.10698173