• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 5
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • Tagged with
  • 7
  • 4
  • 3
  • 2
  • 2
  • 2
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Tensor products in homotopy theory

Heggie, Murray. January 1986 (has links)
No description available.
2

Tensor products in homotopy theory

Heggie, Murray. January 1986 (has links)
No description available.
3

Presheaf toposes and propositional logic.

Squire, Richard. Banaschewski, B. Unknown Date (has links)
Thesis (Ph.D.)--McMaster University (Canada), 1989. / Source: Dissertation Abstracts International, Volume: 52-10, Section: B, page: 5313. Supervisor: B. Banaschewski.
4

Spatially Induced Independence and Concurrency within Presheaves of Labelled Transition Systems

Fortier-Garceau, Simon January 2015 (has links)
In this thesis, we demonstrate how presheaves of labelled transition systems (LTS) acquire a very natural form of spatially induced independence on their actions when we allow a minimal amount of gluing on selected transitions within such systems. This gluing condition is characterized in the new model of LTS-adapted presheaf, and we also make use of the new model of asynchronous labelled transition system with equivalence (ALTSE) to characterize independence on actions. As such, our main result, the Theorem of Spatially Induced Independence, establishes functors from the categories of LTS-adapted presheaves to the categories of ALTSE-valued presheaves; it is a result that extends a proposition of Malcolm [SSTS] in the context of LTS-valued sheaves on complete Heyting algebras.
5

Generalised algebraic models

Centazzo, Claudia 10 December 2004 (has links)
Algebraic theories and algebraic categories offer an innovative and revelatory description of the syntax and the semantics. An algebraic theory is a concrete mathematical object -- the concept -- namely a set of variables together with formal symbols and equalities between these terms; stated otherwise, an algebraic theory is a small category with finite products. An algebra or model of the theory is a set-theoretical interpretation -- a possible meaning -- or, more categorically, a finite product-preserving functor from the theory into the category of sets. We call the category of models of an algebraic theory an algebraic category. By generalising the theory we do generalise the models. This concept is the fascinating aspect of the subject and the reference point of our project. We are interested in the study of categories of models. We pursue our task by considering models of different theories and by investigating the corresponding categories of models they constitute. We analyse localizations (namely, fully faithful right adjoint functors whose left adjoint preserves finite limits) of algebraic categories and localizations of presheaf categories. These are still categories of models of the corresponding theory. We provide a classification of localizations and a classification of geometric morphisms (namely, functors together with a finite limit-preserving left adjoint), in both the presheaf and the algebraic context.
6

Jeux graphiques et théorie de la démonstration / Graphical games and proof theory

Hatat, Florian 23 October 2013 (has links)
Ce travail est une contribution à la sémantique de jeux des langages de programmation. Il présente plusieurs méthodes nouvelles pour construire une sémantique de jeux pour un lambda-calcul de continuations.Si les sémantiques de jeux ont été développées à grande échelle pour fournir des modèles de langages fonctionnels avec références, en appel par nom et par valeur, ou pour différents fragments de la logique linéaire, certains de ses aspects demeurent cependant très subtils. Cette thèse s'intéresse spécifiquement à la notion d'innocence et à la combinatoire mise en jeu dans la composition des stratégies innocentes, en donnant pour chacune une interprétation via des constructions catégoriques standards.Nous reformulons la notion d'innocence en terme de préfaisceaux booléens sur une catégorie de vues. Pour cela, nous enrichissons la notion de parties dans notre sémantique de jeux en ajoutant des morphismes entre parties qui vont au-delà du simple ordre préfixe habituel. À partir d'une stratégie, donnée par les vues qu'elle accepte, on calcule son comportement sur toutes les parties en prenant une extension de Kan à droite.La composition des stratégies innocentes s'appuie sur les notions catégoriques habituelles de systèmes de factorisation et de foncteurs polynomiaux. Notre sémantique permet de modéliser l'interaction entre deux stratégies comme une seule stratégie dont il faut parvenir à cacher les coups internes, grâce à une technique d'élimination des coupures~: cette étape est accomplie avec une version affaiblie des systèmes de factorisation. La composition elle-même entre stratégies repose pour sa part sur l'utilisation de la théorie des foncteurs polynomiaux. Les propriétés essentielles, telles que l'associativité ou la correction de la sémantique, proviennent d'une méthode de preuve presque systématique donnée par cette théorie. / This work is a contribution to game semantics for programming languages. We describe new methods used to define a game semantics for a lambda-calculus with continuations.Game semantics have been widely used to provide models for functional programming languages with references, using call-by-name or call-by-value, or for different fragments of linear logic. Yet, some parts of these semantics are still highly subtle. This work mainly deals with the notion of innocence, and with combinatorics involved in composing innocent strategies. We provide both of them with an interpretation which relies on standard categorical constructions.We reformulate innocence in terms of boolean presheaves over a given category of views. We design for this purpose an enriched class of plays, by adding morphisms which do not appear in the traditional preorder of plays. We show how to compute the global behaviour, i.e., on every play, of a strategy given by its class of accepted views by taking a right Kan extension.Our composition of innocent strategies relies on the usual categorial notions of factorisation systems and polynomial functors. In our semantics, the interaction between two strategies is itself a strategy, in which we must hide internal moves with a cut-elimination process. This step is given by a weakened version of factorisations systems. The core of composition of strategies involves material borrowed from polynomial functors theory. This theory yields a systematic proof method for showing essential properties, such as associativity of composition, or correction of our semantics.
7

Modèles de l'univalence dans le cadre équivariant / On lifting univalence to the equivariant setting

Bordg, Anthony 09 November 2015 (has links)
Cette thèse de doctorat a pour sujet les modèles de la théorie homotopique des types avec l'Axiome d'Univalence introduit par Vladimir Voevodsky. L'auteur prend pour cadre de travail les définitions de type-theoretic model category, type-theoretic fibration category (cette dernière étant la notion de modèle considérée dans cette thèse) et d'univers dans une type-theoretic fibration category, définitions dues à Michael Shulman. La problématique principale de cette thèse consiste à approfondir notre compréhension de la stabilité de l'Axiome d'Univalence pour les catégories de préfaisceaux, en particulier pour les groupoïdes équipés d'une involution. / This PhD thesis deals with some new models of Homotopy Type Theory and the Univalence Axiom introduced by Vladimir Voevodsky. Our work takes place in the framework of the definitions of type-theoretic model categories, type-theoretic fibration categories (the notion of model under consideration in this thesis) and universe in a type-theoretic fibration category, definitions due to Michael Shulman. The goal of this thesis consists mainly in the exploration of the stability of the Univalence Axiom for categories of functors , especially for groupoids equipped with involutions.

Page generated in 0.0415 seconds