Polyhedra enjoy a peculiar property: every geometric shape with a certain “regularity” – in specific terms, certain classes of (closed) topological manifolds – can be captured by a polyhedron via triangulation, that is, by subdividing the geometric shapes into appropriate “triangles”, called simplices (which, in the 1- and 0-dimensional case, are simply edges and vertices, respectively). Therefore, one might well wonder: what is the intermediate logic of the class of triangulable topological manifolds of a given dimension d? The main result of the present work is to give the answer to this question in the case of 1-dimensional manifolds, that is, the circle and the closed interval.
INTERMEDIATE LOGICS AND POLYHEDRA / F. Aloe ; supervisori: V. Marra, M. D'Agostino. Università degli Studi di Milano, 2018 Sep 17. 30. ciclo, Anno Accademico 2017. [10.13130/aloe-francesco_phd2018-09-17].
INTERMEDIATE LOGICS AND POLYHEDRA
F. Aloe
2018
Abstract
Polyhedra enjoy a peculiar property: every geometric shape with a certain “regularity” – in specific terms, certain classes of (closed) topological manifolds – can be captured by a polyhedron via triangulation, that is, by subdividing the geometric shapes into appropriate “triangles”, called simplices (which, in the 1- and 0-dimensional case, are simply edges and vertices, respectively). Therefore, one might well wonder: what is the intermediate logic of the class of triangulable topological manifolds of a given dimension d? The main result of the present work is to give the answer to this question in the case of 1-dimensional manifolds, that is, the circle and the closed interval.
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