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Literatura académica sobre el tema "Théorie des représentations combinatoire et effective"
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Artículos de revistas sobre el tema "Théorie des représentations combinatoire et effective"
Samain, Didier. "Vorstellung, Darstellung, Bedeutung. L’héritage sémantique de la sémiotique". Histoire Epistémologie Langage 40, n.º 1 (2018): 95–112. http://dx.doi.org/10.1051/hel/e2018-80006-6.
Texto completoBürgisser, Peter y Christian Ikenmeyer. "A max-flow algorithm for positivity of Littlewood-Richardson coefficients". Discrete Mathematics & Theoretical Computer Science DMTCS Proceedings vol. AK,..., Proceedings (1 de enero de 2009). http://dx.doi.org/10.46298/dmtcs.2749.
Texto completoCaselli, Fabrizio. "Combinatorial invariant theory of projective reflection groups". Discrete Mathematics & Theoretical Computer Science DMTCS Proceedings vol. AK,..., Proceedings (1 de enero de 2009). http://dx.doi.org/10.46298/dmtcs.2748.
Texto completoHivert, Florent, Anne Schilling y Nicolas M. Thiéry. "The biHecke monoid of a finite Coxeter group". Discrete Mathematics & Theoretical Computer Science DMTCS Proceedings vol. AN,..., Proceedings (1 de enero de 2010). http://dx.doi.org/10.46298/dmtcs.2851.
Texto completoDousse, Jehanne. "A generalisation of two partition theorems of Andrews". Discrete Mathematics & Theoretical Computer Science DMTCS Proceedings, 27th..., Proceedings (1 de enero de 2015). http://dx.doi.org/10.46298/dmtcs.2529.
Texto completoLewis, Stephen y Nathaniel Thiem. "Nonzero coefficients in restrictions and tensor products of supercharacters of $U_n(q)$ (extended abstract)". Discrete Mathematics & Theoretical Computer Science DMTCS Proceedings vol. AN,..., Proceedings (1 de enero de 2010). http://dx.doi.org/10.46298/dmtcs.2840.
Texto completoRubey, Martin, Bruce E. Sagan y Bruce W. Westbury. "Descent sets for oscillating tableaux". Discrete Mathematics & Theoretical Computer Science DMTCS Proceedings vol. AS,..., Proceedings (1 de enero de 2013). http://dx.doi.org/10.46298/dmtcs.12796.
Texto completoBerg, Chris y Monica Vazirani. "$(\ell, 0)$-Carter Partitions and their crystal theoretic interpretation". Discrete Mathematics & Theoretical Computer Science DMTCS Proceedings vol. AJ,..., Proceedings (1 de enero de 2008). http://dx.doi.org/10.46298/dmtcs.3650.
Texto completoZhang, Yan X. "Adinkras for Mathematicians". Discrete Mathematics & Theoretical Computer Science DMTCS Proceedings vol. AS,..., Proceedings (1 de enero de 2013). http://dx.doi.org/10.46298/dmtcs.12826.
Texto completoPak, Igor, Greta Panova y Ernesto Vallejo. "Kronecker coefficients: the tensor square conjecture and unimodality". Discrete Mathematics & Theoretical Computer Science DMTCS Proceedings vol. AT,..., Proceedings (1 de enero de 2014). http://dx.doi.org/10.46298/dmtcs.2388.
Texto completoTesis sobre el tema "Théorie des représentations combinatoire et effective"
Charles, Balthazar. "Combinatorics and computations : Cartan matrices of monoids & minimal elements of Shi arrangements". Electronic Thesis or Diss., université Paris-Saclay, 2023. http://www.theses.fr/2023UPASG063.
Texto completoThis thesis presents an investigation into two distinct combinatorial subjects: the effective computation of Cartan matrices in monoid representation theory and the exploration of properties of minimal elements in Shi arrangements of Coxeter groups. Although disparate, both of these research focuses share a commonality in the utilization of combinatorial methods and computer exploration either as an end in itself for the former or as a help to research for the latter. In the first part of the dissertation, we develop methods for the effective computation of character tables and Cartan matrices in monoid representation theory. To this end, we present an algorithm based on our results for the efficient computations of fixed points under a conjugacy-like action, with the goal to implement Thiéry's formula for the Cartan matrix from [Thiéry '12]. After a largely self-contained introduction to the necessary background, we present our results for fixed-point counting, as well as a new formula for the character table of finite monoids. We evaluate the performance of the resulting algorithms in terms of execution time and memory usage and find that they are more efficient than algorithms not specialized for monoids by orders of magnitude. We hope that the resulting (public) implementation will contribute to the monoid representation community by allowing previously impractical computations. The second part of the thesis focuses on the properties of minimal elements in Shi arrangements. The Shi arrangements were introduced in [Shi '87] and are the object of Conjecture 2 from [Dyer, Hohlweg '14]. Originally motivated by this conjecture, we present two results. Firstly, a direct proof in the case of rank 3 groups. Secondly, in the special case of Weyl groups, we give a description of the minimal elements of the Shi regions by extending a bijection from [Athanasiadis, Linusson '99] and [Armstrong, Reiner, Rhoades '15] between parking functions and Shi regions. This allows for the effective computation of the minimal elements. From the properties of this computation, we provide a type-free proof of the conjecture in Weyl groups as an application. These results reveal an intriguing interplay between the non-nesting and non-crossing worlds in the case of classical Weyl groups
Laugerotte, Eric. "Combinatoire et calcul symbolique en théorie des représentations". Rouen, 1997. http://www.theses.fr/1997ROUES069.
Texto completoGleitz, Anne-Sophie. "Algèbres amassées et théorie des représentations". Caen, 2015. http://www.theses.fr/2015CAEN2009.
Texto completoIn this thesis, we focus on two questions arising from combinatorics and representation theory. Kuniba, Nakanishi and Suzuki have formulated a conjecture that expresses the positive solution of a system of algebraic equations, called a restricted Q-system, in terms of the quantum dimensions of some particular irreducible representations of the corresponding quantum affine algebras, called Kirillov-Reshetikhin modules. We prove this result for the exceptional type E_6, and give partial proofs for types E_7 and E_8. We reduce positivity to the conjectural iterated log-concavity of certain explicit sequences of real algebraic numbers. Cluster algebras, introduced by Fomin and Zelevinsky, give us a better view of the relations between Q-systems and Kirillov-Reshetikhin modules. Hernandez and Leclerc have proved that the Grothendieck ring of a certain tensor subcategory of finite-dimensional representations of a quantum affine algebra has a cluster structure, whose seeds are closely related to the affine analogues of the Q-systems, called T-systems. In the spirit of this work, we prove, in type A_1, that the Grothendieck ring of a certain tensor subcategory of finite-dimensional representations of the quantum affine algebra specialised at root of unity, is isomorphic to a variant of cluster algebras, introduced by Chekhov and Shapiro, called a generalised cluster algebra, of finite type C. We state a similar conjecture in type A_2, where we give an explicit seed, which is in general no longer of finite type
Baumann, Pierre. "Propriétés et combinatoire des bases de type canonique". Habilitation à diriger des recherches, Université de Strasbourg, 2012. http://tel.archives-ouvertes.fr/tel-00705204.
Texto completoVirmaux, Aladin. "Théorie des représentations combinatoire de tours de monoïdes : Application à la catégorification et aux fonctions de parking". Thesis, Université Paris-Saclay (ComUE), 2016. http://www.theses.fr/2016SACLS138/document.
Texto completoThis thesis is focused on combinatorical representation theory of finitemonoids within the field of algebraic combinatorics.A monoid $M$ is a finite set endowed with a multiplication and a neutralelement. A representation of $M$ is a morphism from $M$ into the monoid ofmatrices $M_n(ck)$ where $ck$ is a field; in this work it will typically bereferred to as $ck = CC$.The results obtained in the last decades allows us to use representation theoryof groups, and combinatorics on preorders in order to explore representationtheory of finite monoides.In 1996, Krob and Thibon proved that the induction and restriction rules ofirreducible and projective representations of the tower of $0$-Hecke monoidsendows its ring of caracters with a Hopf algebra structure, isomorph to thenon-commutative symmetric functions Hopf algebra $ncsf$. This gives acategorification of $ncsf$, which is an interpretation of the non-commutativesymmetruc functions in the language of representation theory. This extends atheorem of Frobenius endowing the character ring of symmetric groups to theHopf algebra of symmetric functions. Since then a natural problem is tocategorify other Hopf algebras -- for instance the Planar Binary Tree algebraof Loday and Ronco -- by a tower of algebras.Guessing such a tower of algebra is a difficult problem in general.In this thesis we restrict ourselves to towers of monoids in order to have abetter control on its representations. This is quite natural as on one hand,this setup covers both previous fundamental examples, whereas $ncsf$cannot be categorified in the restricted set of tower of group algebras.In the first part of this work, we start with some results about representationtheory of towers of monoids. We then focus on categorification with towers ofsemilatices, for example the tower of permutohedrons. We categorify thealgebra, and cogebra structure of $fqsym$, but not the full Hopf algebrastructure with its dual. We then make a comprehensive search in order tocategorify $pbt$ with a tower of monoids. We show that under naturalhypothesis, there exists no tower of monoids satisfying the categorificationaxioms. Finally we show that in some sense, the tower of $0$-Hecke monoids isthe simplest tower categorifying $ncsf$.The second part of this work deals with parking functions, applying resultsfrom the first part. We first study the representation theory of non decreasingparking functions. We then present a joint work with Jean-Baptiste Priez on ageneralization of parking functions from Pitman and Stanley. To obtainenumeration formulas, we use a variant of the species theory which was moreefficient in our case.We used an action of $H_n(0)$ instead of the symmetric group and use theKrob-Thibon theorem to lift the character of this action into the Hopf algebraof non-commutative symmetric functions
Busé, Laurent. "Représentations matricielles en théorie de l'élimination et applications à la géométrie". Habilitation à diriger des recherches, Université de Nice Sophia-Antipolis, 2011. http://tel.archives-ouvertes.fr/tel-00593603.
Texto completoEsterle, Alexandre. "Groupes d'Artin et algèbres de Hecke sur un corps fini". Thesis, Amiens, 2018. http://www.theses.fr/2018AMIE0061/document.
Texto completoIn this doctoral thesis, we will determine the image of Artin groups associated to all finite irreducible Coxeter groups inside their associated finite Iwahori-Hecke algebra. This was done in type A in articles by Brunat, Marin and Magaard. The Zariski closure of the image was determined in the generic case by Marin. It is suggested by strong approximation that the results should be similar in the finite case. However, the conditions required to use are much too strong and would only provide a portion of the results. We show in this thesis that they are but that new phenomena arise from the different field factorizations. The techniques used in the finite case are very different from the ones in the generic case. The main arguments come from finite group theory. In high dimension, we will use a theorem by Guralnick-Saxl which uses the classification of finite simple groups to give a condition for subgroups of linear groups to be classical groups in a natural representation. In low dimension, we will mainly use the classification of maximal subgroups of classical groups obtained by Bray, Holt and Roney-Dougal for the complicated cases
Khalife, Sammy. "Graphes, géométrie et représentations pour le langage et les réseaux d'entités". Thesis, Institut polytechnique de Paris, 2020. http://www.theses.fr/2020IPPAX055.
Texto completoThe automated treatment of familiar objects, either natural or artifacts, always relies on a translation into entities manageable by computer programs. The choice of these abstract representations is always crucial for the efficiency of the treatments and receives the utmost attention from computer scientists and developers. However, another problem rises: the correspondence between the object to be treated and "its" representation is not necessarily one-to-one! Therefore, the ambiguous nature of certain discrete structures is problematic for their modeling as well as their processing and analysis with a program. Natural language, and in particular its textual representation, is an example. The subject of this thesis is to explore this question, which we approach using combinatorial and geometric methods. These methods allow us to address the problem of extracting information from large networks of entities and to construct representations useful for natural language processing.Firstly, we start by showing combinatorial properties of a family of graphs implicitly involved in sequential models. These properties essentially concern the inverse problem of finding a sequence representing a given graph. The resulting algorithms allow us to carry out an experimental comparison of different sequential models used in language modeling.Secondly, we consider an application for the problem of identifying named entities. Following a review of recent solutions, we propose a competitive method based on the comparison of knowledge graph structures which is less costly in annotating examples dedicated to the problem. We also establish an experimental analysis of the influence of entities from capital relations. This analysis suggests to broaden the framework for applying the identification of entities to knowledge bases of different natures. These solutions are used today in a software library in the banking sector.Then, we perform a geometric study of recently proposed representations of words, during which we discuss a geometric conjecture theoretically and experimentally. This study suggests that language analogies are difficult to transpose into geometric properties, and leads us to consider the paradigm of distance geometry in order to construct new representations.Finally, we propose a methodology based on the paradigm of distance geometry in order to build new representations of words or entities. We propose algorithms for solving this problem on some large scale instances, which allow us to build interpretable and competitive representations in performance for extrinsic tasks. More generally, we propose through this paradigm a new framework and research leadsfor the construction of representations in machine learning
Rostam, Salim. "Algèbres de Hecke carquois et généralisations d'algèbres d'Iwahori-Hecke". Thesis, Université Paris-Saclay (ComUE), 2018. http://www.theses.fr/2018SACLV063/document.
Texto completoThis thesis is devoted to the study of quiver Hecke algebras and some generalisations of Iwahori-Hecke algebras. We begin with two results concerning quiver Hecke algebras, first when the quiver has several connected components and second when the quiver has an automorphism of finite order. We then recall an isomorphism of Brundan-Kleshchev and Rouquier between Ariki-Koike algebras and certain cyclotomic quiver Hecke algebras. From this, on the one hand we deduce that a well-known important Morita equivalence between Ariki--Koike algebras comes from an isomorphism, on the other hand we give a cyclotomic quiver Hecke-like presentation for the Hecke algebra of type G(r,p,n). We also generalise the isomorphism of Brundan-Kleshchev to prove that cyclotomic Yokonuma-Hecke algebras are particular cases of cyclotomic quiver Hecke algebras. Finally, we study a problem of algebraic combinatorics, related to the representation theory of Ariki-Koike algebras. Using the abacus representation of partitions and solving, via an existence theorem for binary matrices, a constrained optimisation problem with integer variables, we prove that a stuttering multiset of residues necessarily comes from a stuttering multipartition
Gay, Joël. "Representation of Monoids and Lattice Structures in the Combinatorics of Weyl Groups". Thesis, Université Paris-Saclay (ComUE), 2018. http://www.theses.fr/2018SACLS209/document.
Texto completoAlgebraic combinatorics is the research field that uses combinatorial methods and algorithms to study algebraic computation, and applies algebraic tools to combinatorial problems. One of the central topics of algebraic combinatorics is the study of permutations, interpreted in many different ways (as bijections, permutation matrices, words over integers, total orders on integers, vertices of the permutahedron…). This rich diversity of perspectives leads to the following generalizations of the symmetric group. On the geometric side, the symmetric group generated by simple transpositions is the canonical example of finite reflection groups, also called Coxeter groups. On the monoidal side, the simple transpositions become bubble sort operators that generate the 0-Hecke monoid, whose algebra is the specialization at q=0 of Iwahori’s q-deformation of the symmetric group. This thesis deals with two further generalizations of permutations. In the first part of this thesis, we first focus on partial permutations matrices, that is placements of pairwise non attacking rooks on a n by n chessboard, simply called rooks. Rooks generate the rook monoid, a generalization of the symmetric group. In this thesis we introduce and study the 0-Rook monoid, a generalization of the 0-Hecke monoid. Its algebra is a proper degeneracy at q = 0 of the q-deformed rook monoid of Solomon. We study fundamental monoidal properties of the 0-rook monoid (Green orders, lattice property of the R-order, J-triviality) which allow us to describe its representation theory (simple and projective modules, projectivity on the 0-Hecke monoid, restriction and induction along an inclusion map).Rook monoids are actually type A instances of the family of Renner monoids, which are completions of the Weyl groups (crystallographic Coxeter groups) for Zariski’s topology. In the second part of this thesis we extend our type A results to define and give a presentation of 0-Renner monoids in type B and D. This also leads to a presentation of the Renner monoids of type B and D, correcting a misleading presentation that appeared earlier in the litterature. As in type A we study the monoidal properties of the 0-Renner monoids of type B and D : they are still J-trivial but their R-order are not lattices anymore. We study nonetheless their representation theory and the restriction of projective modules over the corresponding 0-Hecke monoids. The third part of this thesis deals with different generalizations of permutations. In a recent series of papers, Châtel, Pilaud and Pons revisit the algebraic combinatorics of permutations (weak order, Malvenuto-Reutenauer Hopf algebra) in terms of the combinatorics of integer posets. This perspective encompasses as well the combinatorics of quotients of the weak order such as binary trees, binary sequences, and more generally the recent permutrees of Pilaud and Pons. We generalize the weak order on the elements of the Weyl groups. This enables us to describe the order on vertices of the permutahedra, generalized associahedra and cubes in the same unified context. These results are based on subtle properties of sums of roots in Weyl groups, and actually fail for non-crystallographic Coxeter groups