A mathematical model of the early visual system and border completion via subriemannian Hamiltonian geodesics

Marraffa, Alice (2022) A mathematical model of the early visual system and border completion via subriemannian Hamiltonian geodesics. [Laurea], Università di Bologna, Corso di Studio in Fisica [L-DM270]
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Abstract

In this thesis, we aim to discuss a simple mathematical model for the edge detection mechanism and the boundary completion problem in the human brain in a differential geometry framework. We describe the columnar structure of the primary visual cortex as the fiber bundle R2 × S1, the orientation bundle, and by introducing a first vector field on it, explain the edge detection process. Edges are detected through a lift from the domain in R2 into the manifold R2 × S1 and are horizontal to a completely non-integrable distribution. Therefore, we can construct a subriemannian structure on the manifold R2 × S1, through which we retrieve perceived smooth contours as subriemannian geodesics, solutions to Hamilton’s equations. To do so, in the first chapter, we illustrate the functioning of the most fundamental structures of the early visual system in the brain, from the retina to the primary visual cortex. We proceed with introducing the necessary concepts of differential and subriemannian geometry in chapters two and three. We finally implement our model in chapter four, where we conclude, comparing our results with the experimental findings of Heyes, Fields, and Hess on the existence of an association field.

Abstract
Tipologia del documento
Tesi di laurea (Laurea)
Autore della tesi
Marraffa, Alice
Relatore della tesi
Scuola
Corso di studio
Ordinamento Cds
DM270
Parole chiave
primary visual cortex,boundary completion,edge detection,subriemannian geometry
Data di discussione della Tesi
16 Settembre 2022
URI

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