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1	Combinatorial Interpretations Of Generalizations Of Catalan Numbers And Ballot Numbers Allen, Emily 01 May 2014 (has links) The super Catalan numbers T(m,n) = (2m)!(2n)!=2m!n!(m+n)! are integers which generalize the Catalan numbers. Since 1874, when Eugene Catalan discovered these numbers, many mathematicians have tried to find their combinatorial interpretation. This dissertation is dedicated to this open problem. In Chapter 1 we review known results on T (m,n) and their q-analog polynomials. In Chapter 2 we give a weighted interpretation for T(m,n) in terms of 2-Motzkin paths of length m+n2 and a reformulation of this interpretation in terms of Dyck paths. We then convert our weighted interpretation into a conventional combinatorial interpretation for m = 1,2. At the beginning of Chapter 2, we prove our weighted interpretation for T(m,n) by induction. In the final section of Chapter 2 we present a constructive combinatorial proof of this result based on rooted plane trees. In Chapter 3 we introduce two q-analog super Catalan numbers. We also define the q-Ballot number and provide its combinatorial interpretation. Using our q-Ballot number, we give an identity for one of the q-analog super Catalan numbers and use it to interpret a q-analog super Catalan number in the case m= 2. In Chapter 4 we review problems left open and discuss their difficulties. This includes the unimodality of some of the q-analog polynomials and the conventional combinatorial interpretation of the super Catalan numbers and their q-analogs for higher values of m. combinatorics lattice paths Dyck path Catalan numbers Ballot numbers super Catalan numbers
2	Analysis of the Generalized Catalan Orbits Mott, Brittany Nicole 16 May 2011 (has links) No description available. Mathematics Catalan Numbers Generalized Catalan Numbers Burnside's Lemma Orbits Dissection of polygons
3	Parking Functions And Generalized Catalan Numbers Schumacher, Paul R. 14 January 2010 (has links) Since their introduction by Konheim and Weiss, parking functions have evolved into objects of surprising combinatorial complexity for their simple definitions. First, we introduce these structures, give a brief history of their development and give a few basic theorems about their structure. Then we examine the internal structures of parking functions, focusing on the distribution of descents and inversions in parking functions. We develop a generalization to the Catalan numbers in order to count subsets of the parking functions. Later, we introduce a generalization to parking functions in the form of k-blocked parking functions, and examine their internal structure. Finally, we expand on the extension to the Catalan numbers, exhibiting examples to explore its internal structure. These results continue the exploration of the deep structures of parking functions and their relationship to other combinatorial objects. Parking Functions Inversions Descents Linear Probes Catalan Numbers
4	Invariants of Polynomials Modulo Frobenius Powers Drescher, Chelsea 05 1900 (has links) Rational Catalan combinatorics connects various Catalan numbers to the representation theory of rational Cherednik algebras for Coxeter and complex reflection groups. Lewis, Reiner, and Stanton seek a theory of rational Catalan combinatorics for the general linear group over a finite field. The finite general linear group is a modular reflection group that behaves like a finite Coxeter group. They conjecture a Hilbert series for a space of invariants under the action of this group using (q,t)-binomial coefficients. They consider the finite general linear group acting on the quotient of a polynomial ring by iterated powers of the irrelevant ideal under the Frobenius map. Often conjectures about reflection groups are solved by considering the local case of a group fixing one hyperplane and then extending via the theory of hyperplane arrangements to the full group. The Lewis, Reiner and Stanton conjecture had not previously been formulated for groups fixing a hyperplane. We formulate and prove their conjecture in this local case. reflection groups; coefficients; transvections Mathematics
5	The Groebner basis of a polynomial system related to the Jacobian conjecture / The Groebner basis of a polynomial system related to the Jacobian conjecture Valqui Haase, Christian Holger, Solórzano, Marco 25 September 2017 (has links) We compute the Groebner basis of a system of polynomial equations related to the Jacobian conjecture using a recursive formula for the Catalan numbers. / En este artículo calculamos la base de Groebner de un sistema polinomial de ecuaciones relacionada con la conjetura del jacobiano utilizando una fórmula recursiva para los numeros de Catalan. Jacobian Groebner Basis Catalan Numbers 14r15 13f20 11b99 Jacobiano Bases de Groebner Números de Catalan 14r15 13f20 11b99
6	Generalizations of the Arcsine Distribution Rasnick, Rebecca 01 May 2019 (has links) The arcsine distribution looks at the fraction of time one player is winning in a fair coin toss game and has been studied for over a hundred years. There has been little further work on how the distribution changes when the coin tosses are not fair or when a player has already won the initial coin tosses or, equivalently, starts with a lead. This thesis will first cover a proof of the arcsine distribution. Then, we explore how the distribution changes when the coin the is unfair. Finally, we will explore the distribution when one person has won the first few flips. arcsine distribution catalan numbers random walk first return to origin Discrete Mathematics and Combinatorics Probability Statistical Theory
7	Bijeções envolvendo os números de Catalan / Bijections involving the Catalan numbers Brasil Junior, Nelson Gomes, 1989- 05 September 2014 (has links) Orientador: José Plínio de Oliveira Santos / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Matemática Estatística e Computação Científica / Made available in DSpace on 2018-08-25T04:32:08Z (GMT). No. of bitstreams: 1 BrasilJunior_NelsonGomes_M.pdf: 980636 bytes, checksum: dd8d61baeb633d5f598abc3523def800 (MD5) Previous issue date: 2014 / Resumo: Neste trabalho, estudamos a sequência dos Números de Catalan, uma sequência que aparece como solução de vários problemas de contagem envolvendo árvores, palavras, grafos e outras estruturas combinatórias. Atualmente, são conhecidas cerca de 200 interpretações combinatórias distintas para os Números de Catalan, o que motiva o estudo de relações entre estas interpretações, isto é, entre conjuntos cuja cardinalidade é dada pelos termos desta sequência. O principal objetivo do nosso trabalho é, portanto, mostrar bijeções entre esses conjuntos. No início do texto fazemos uma pequena introdução histórica aos números de Catalan, assim como definimos algumas formas de representar a sequência estudada. Depois mostramos algumas bijeções clássicas entre conjuntos contados pela sequência de Catalan. Além disso, apresentamos outras bijeções entre conjuntos envolvendo diversos objetos combinatórios. No total, são exibidas 29 bijeções / Abstract: In this work, we study the sequence of Catalan Numbers, which appears as a solution of many counting problems involving trees, words, graphs and other combinatorial structures. Nowadays, about 200 different combinatorial interpretations of the Catalan Numbers are known and that motivates the study between them, i. e., the study between sets whose cardinality is given by the terms of this sequence. The main objective of our work is therefore to show bijections between these sets. In the beginning, we make a short historical introduction of the Catalan Numbers and define some ways to represent the sequence. After that, we show some classical bijections between sets counted by the Catalan Numbers. Additionally, we exhibit other bijections between sets involving several combinatorial objects. Altogether, 29 bijections are presented / Mestrado / Matematica Aplicada / Mestre em Matemática Aplicada Problemas de enumeração combinatória Análise combinatória Catalan, Números de (Matemática) Bijeções Provas bijetivas Combinatorial enumeration problems Combinatorial analysis Catalan numbers Bijections Bijective proofs
8	Les nombres de Catalan et le groupe modulaire PSL2(Z) / Catalan Numbers and the modular group PSL2(Z) Guichard, Christelle 29 October 2018 (has links) Dans ce mémoire de thèse, on étudie le morphisme de monoïde $mu$du monoïde libre sur l'alphabet des entiers $nb$,`a valeurs dans le groupe modulaire $PSL_2(zb)$,considéré comme monoïde, défini pour tout entier $a$ par $mu(a)=begin{pmatrix} 0 & -1 1 & a+1 end{pmatrix}.$Les nombres de Catalan apparaissent naturellement dans l'étudede sous-ensembles du noyau de $mu$.Dans un premier temps, on met en évidence deux systèmes de réécriture, l'un sur l'alphabet fini ${0,1}$, l'autresur l'alphabet infini des entiers $nb$ et on montreque ces deux systèmes de réécriture définissent des présentations de monoïde de $PSL_2(zb)$ par générateurs et relations.Par ailleurs, on introduit le morphisme d'indice associé `a l'abélianisé du rev^etement universel de $PSL_2(zb)$,le groupe $B_3$ des tresses `a trois brins. Interprété dans deux contextes différents,le morphisme d'indice est associé au nombre de "demi-tours".Ensuite, dans les quatrième et cinquième parties, on dénombre des sous-ensembles du noyau de $mu_{\|{0,1}}$ etdu noyau de $mu$, bigradués par la longueur et l'indice. La suite des nombres de Catalan et d'autres diagonales du triangle de Catalan interviennentsimplement dans les résultats.Enfin, on présente l'origine géométrique de cette étude : on explicite le lien entre l'objectif premier de la thèse qui était l'étudedes polygones convexes entiers d'aire minimale et notre intéret pour le monoïde engendré par ces matrices particulières de $PSL_2(zb)$. / In this thesis, we study a morphism of mono"id $mu$ between the free mono"id on the alphabet of integers $nb$and the modular group $PSL_2(zb)$ considered as a mono"id, defined for all integer $a$by $mu(a)=begin{pmatrix} 0 & -1 1 & a+1 end{pmatrix}.$ The Catalan Numbers arised naturally in the study ofsubsets of the kernel of the morphism $mu$.Firstly, we introduce two rewriting systems, one on the finite alphabet ${0,1}$, and the other on the infinite alphabet of integers $nb$. We proove that bothof these rewriting systems defines a mono"id presentation of $PSL_2(zb)$ by generators and relations.On another note, we introduce the morphism of loop associated to the abelianised of the universal covering group of $PSL_2(zb)$, the group $B_3$ ofbraid group on $3$ strands. In two different contexts, the morphism of loop is associated to the number of "half-turns".Then, in the fourth and the fifth parts, we numerate subsets of the kernel of $mu_{\|{0,1}}$ and of the kernel of $mu$,bi-graduated by the morphism of lengthand the morphism of loop. The sequences of Catalan numbers and other diagonals of the Catalan triangle come into the results.Lastly, we present the geometrical origin of this research : we detail the connection between our first aim,which was the study of convex integer polygones ofminimal area, and our interest for the mono"id generated by these particular matrices of $PSL_2(zb)$. Nombres de Catalan Groupe modulaire Groupe des tresses à trois brins B3 Arbres 3-Réguliers Abélianisé Polygones convexes entiers Catalan Numbers Modular group Braid group B3 3-Regular trees Abelianised Integer convex polygons 510
9	Kombinatorické posloupnosti čísel a dělitelnost / Combinatorial sequences and divisibility Michalik, Jindřich January 2018 (has links) This work contains an overview of the results concerning number-theoretic pro- perties of some significant combinatorial sequences such as factorials, binomial coef- ficients, Fibonacci and Catalan numbers. These properties include parity, primality, prime power divisibility, coprimality etc. A substantial part of the text should be accessible to gifted high school students, the results are illustrated with examples. 1

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