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Main Author: Eberl, Matthias
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.05276
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author Eberl, Matthias
author_facet Eberl, Matthias
contents We introduce a model of simple type theory with potential infinite carrier sets. The functions in this model are automatically continuous, as defined in this paper. This notion of continuity does not rely on topological concepts, including domain theoretic concepts, which essentially use actual infinite sets. The model is based on the concept of a factor system, which generalizes direct and inverse systems. A factor system is basically an extensible set indexed over a directed set of stages, together with a predecessor relation between object states at different stages. The function space, when considered as a factor system, expands simultaneously with its elements. On the one hand, the space is subdivided more and more, on the other hand, the elements increase and are defined more and more precisely. In addition, a factor system allows the construction of limits that are part of its expansion process and not outside of it. At these limits, elements are indefinitely large or small, which is a contextual notion and a substitute for elements that are infinitely large or small (points). This dynamic and contextual view is consistent with an understanding of infinity as a potential infinite.
format Preprint
id arxiv_https___arxiv_org_abs_2501_05276
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Continuity in Potential Infinite Models
Eberl, Matthias
Logic
We introduce a model of simple type theory with potential infinite carrier sets. The functions in this model are automatically continuous, as defined in this paper. This notion of continuity does not rely on topological concepts, including domain theoretic concepts, which essentially use actual infinite sets. The model is based on the concept of a factor system, which generalizes direct and inverse systems. A factor system is basically an extensible set indexed over a directed set of stages, together with a predecessor relation between object states at different stages. The function space, when considered as a factor system, expands simultaneously with its elements. On the one hand, the space is subdivided more and more, on the other hand, the elements increase and are defined more and more precisely. In addition, a factor system allows the construction of limits that are part of its expansion process and not outside of it. At these limits, elements are indefinitely large or small, which is a contextual notion and a substitute for elements that are infinitely large or small (points). This dynamic and contextual view is consistent with an understanding of infinity as a potential infinite.
title Continuity in Potential Infinite Models
topic Logic
url https://arxiv.org/abs/2501.05276