Tree-like Tableaux

Aval, Jean-Christophe; Boussicault, Adrien; Nadeau, Philippe

doi:10.37236/3440

Cited by 28 publications

(79 citation statements)

References 15 publications

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“…Our interest is motivated by the fact that polynomials satisfying such recurrences frequently appear as generating polynomials of integer valued random variables that are of interest in discrete mathematics. As an illustration, we will analyze probabilistic properties of tree-like tableaux, combinatorial objects that have recently been introduced by Aval, Boussicault, and Nadeau [2]. Since their introduction, they have been of interest to several mathematicians and are the topic of the papers [10,13,16,23].…”

Section: Introductionmentioning

confidence: 99%

“…Since their introduction, they have been of interest to several mathematicians and are the topic of the papers [10,13,16,23]. In [2], the expected number of diagonal cells in symmetric tree-like tableaux was computed and this paper extends this result by determining the variance and deriving the asymptotic distribution. The distribution is proven to be asymptotically normal and the proof of this reduces to the classical problem of determining whether a polynomial has real roots.…”

Section: Introductionmentioning

confidence: 99%

“…In this paper, we are interested in the subset consisting of symmetric tree-like tableaux which are tree-like tableaux symmetric about their main diagonal (see [2, Section 2.2] for more details and Figure 1(ii) for an example). As noticed in [2], the size of a symmetric tree-like tableaux must be odd, and it is known that there are n! tree-like tableaux of size n (see [2,Corollary 8]) and 2 n n!…”

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confidence: 99%

“…As noticed in [2], the size of a symmetric tree-like tableaux must be odd, and it is known that there are n! tree-like tableaux of size n (see [2,Corollary 8]) and 2 n n! symmetric tree-like tableaux of size 2n + 1 (see [2,Corollary 8]).…”

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confidence: 99%

“…tree-like tableaux of size n (see [2,Corollary 8]) and 2 n n! symmetric tree-like tableaux of size 2n + 1 (see [2,Corollary 8]).…”

mentioning

confidence: 99%

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Probabilistic consequences of some polynomial recurrences

Hitczenko

Lohss

2018

Random Struct Algorithms

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In this paper, we consider sequences of polynomials that satisfy certain recurrences. Our interest is motivated by the fact that polynomials satisfying such recurrences frequently appear as generating polynomials of integer valued random variables that are of interest in discrete mathematics. In particular, we will use our approach to show that the number of diagonal boxes in symmetric tree‐like tableaux is asymptotically normal. This extends earlier results of Aval, Boussicault and Nadeau, who found the asymptotics of the expected number of diagonal boxes. Through our discussion, we establish a general framework to approach such recurrences and prompt a generalization of the probabilistic consequences of them.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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confidence: 99%

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confidence: 99%

“…tree-like tableaux of size n (see [2,Corollary 8]) and 2 n n! symmetric tree-like tableaux of size 2n + 1 (see [2,Corollary 8]).…”

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confidence: 99%

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Probabilistic consequences of some polynomial recurrences

Hitczenko

Lohss

2018

Random Struct Algorithms

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Asymptotic normality of the number of corners in tableaux associated with the partially asymmetric simple exclusion process

Hitczenko

Yaroslavskiy

2020

Random Struct Algorithms

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In this paper, we study corners in tree-like and permutation tableaux. Tree-like tableaux are in bijection with other combinatorial structures, including permutation tableaux, and have a connection to the partially asymmetric simple exclusion process (PASEP), an important model of an interacting particles system. In particular, in the context of tree-like tableaux, a corner corresponds to a node occupied by a particle that could jump to the right while inner corners indicate a particle with an empty node to its left. Thus, the total number of corners represents the number of nodes at which PASEP can move, that is, the total current activity of the system. As the number of inner corners and regular corners is connected, we limit our discussion to just regular corners and show that asymptotically, the number of corners in a tableau of length n is normally distributed. Furthermore, since the number of corners in tree-like tableaux is closely related to the number of corners in permutation tableaux, we will discuss the corners in the context of the latter tableaux. Finally, using analogous techniques, we prove a central limit theorem for the number of corners in symmetric tree-like tableaux and type-B permutation tableaux.

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Combinatorics of non-ambiguous trees

Aval

Boussicault

Bouvel

et al. 2014

Advances in Applied Mathematics

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International audienceThis article investigates combinatorial properties of non-ambiguous trees. These objects we define may be seen either as binary trees drawn on a grid with some constraints, or as a subset of the tree-like tableaux previously defined by Aval, Boussicault and Nadeau. The enumeration of non-ambiguous trees satisfying some additional constraints allows us to give elegant combinatorial proofs of identities due to Carlitz, and to Ehrenborg and Steingrímsson. We also provide a hook formula to count the number of non-ambiguous trees with a given underlying tree. Finally, we use non-ambiguous trees to describe a very natural bijection between parallelogram polyominoes and binary trees

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Tree-like Tableaux

Cited by 28 publications

References 15 publications

Probabilistic consequences of some polynomial recurrences

Probabilistic consequences of some polynomial recurrences

Asymptotic normality of the number of corners in tableaux associated with the partially asymmetric simple exclusion process

Combinatorics of non-ambiguous trees

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