Title: Cech Closure Spaces: A Unified Framework for Discrete and Continuous Homotopy
Speaker: Tony Rieser (Centro de Investigación en Matemáticas (CIMAT))
Abstract: Motivated by constructions in topological data analysis, we study homotopy theory on the category of closure spaces, the category whose objects are sets endowed with a Cech closure operator and whose morphisms are the continuous maps between them. We introduce new classes of closure structures on metric spaces, graphs, and simplicial complexes, and we show how each of these cases gives rise to an interesting homotopy theory. In particular, we show that there exists a natural family of closure structures on metric spaces which produces a non-trivial homotopy theory for finite metric spaces, i.e. point clouds, the spaces of interest in topological data analysis. We then give a closure structure to graphs and simplicial complexes which may be used to construct a new combinatorial (as opposed to topological) homotopy theory for each skeleton of those spaces. We further show that there is a Seifert-van Kampen theorem for closure spaces and a well-defined notion of persistent homotopy. As an illustration of the difference with the topological setting, we calculate the fundamental group for the circle, 'circular graphs', and the wedge of circles endowed with different closure structures. Finally, we produce a continuous map from the topological circle to 'circular graphs' which induces an isomorphism on the fundamental groups, given appropriate closure structures.
