Classification of metric fibrations
In this paper, we study `a fibration of metric spaces' that was originally introduced by Leinster in the study of the magnitude and called metric fibrations. He showed that the magnitude of a metric fibration splits into the product of those of the fiber and the base, which is analogous to the...
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| description | In this paper, we study `a fibration of metric spaces' that was originally
introduced by Leinster in the study of the magnitude and called metric
fibrations. He showed that the magnitude of a metric fibration splits into the
product of those of the fiber and the base, which is analogous to the Euler
characteristic and topological fiber bundles. His idea and our approach is
based on Lawvere's suggestion of viewing a metric space as an enriched
category. Actually, the metric fibration turns out to be the restriction of the
enriched Grothendieck fibrations to metric spaces. We give a complete
classification of metric fibrations by several means, which is parallel to that
of topological fiber bundles. That is, the classification of metric fibrations
is reduced to that of `principal fibrations', which is done by the `1-Cech
cohomology' in an appropriate sense. Here we introduce the notion of torsors in
the category of metric spaces, and the discussions are analogous to the sheaf
theory. Further, we can define the `fundamental group $\pi^m_1(X)$' of a metric
space $X$, which is a group object in metric spaces, such that the conjugation
classes of homomorphisms $Hom(\pi^m_1(X), G)$ corresponds to the isomorphism
classes of `principal $G$-fibrations' over $X$. Namely, it is classified like
topological covering spaces. |
| doi_str_mv | 10.48550/arxiv.2307.04387 |
| format | Article |
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introduced by Leinster in the study of the magnitude and called metric
fibrations. He showed that the magnitude of a metric fibration splits into the
product of those of the fiber and the base, which is analogous to the Euler
characteristic and topological fiber bundles. His idea and our approach is
based on Lawvere's suggestion of viewing a metric space as an enriched
category. Actually, the metric fibration turns out to be the restriction of the
enriched Grothendieck fibrations to metric spaces. We give a complete
classification of metric fibrations by several means, which is parallel to that
of topological fiber bundles. That is, the classification of metric fibrations
is reduced to that of `principal fibrations', which is done by the `1-Cech
cohomology' in an appropriate sense. Here we introduce the notion of torsors in
the category of metric spaces, and the discussions are analogous to the sheaf
theory. Further, we can define the `fundamental group $\pi^m_1(X)$' of a metric
space $X$, which is a group object in metric spaces, such that the conjugation
classes of homomorphisms $Hom(\pi^m_1(X), G)$ corresponds to the isomorphism
classes of `principal $G$-fibrations' over $X$. Namely, it is classified like
topological covering spaces.</description><identifier>DOI: 10.48550/arxiv.2307.04387</identifier><language>eng</language><subject>Mathematics - Algebraic Topology ; Mathematics - Category Theory ; Mathematics - Metric Geometry</subject><creationdate>2023-07</creationdate><rights>http://arxiv.org/licenses/nonexclusive-distrib/1.0</rights><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>228,230,776,881</link.rule.ids><linktorsrc>$$Uhttps://arxiv.org/abs/2307.04387$$EView_record_in_Cornell_University$$FView_record_in_$$GCornell_University$$Hfree_for_read</linktorsrc><backlink>$$Uhttps://doi.org/10.48550/arXiv.2307.04387$$DView paper in arXiv$$Hfree_for_read</backlink></links><search><creatorcontrib>Asao, Yasuhiko</creatorcontrib><title>Classification of metric fibrations</title><description>In this paper, we study `a fibration of metric spaces' that was originally
introduced by Leinster in the study of the magnitude and called metric
fibrations. He showed that the magnitude of a metric fibration splits into the
product of those of the fiber and the base, which is analogous to the Euler
characteristic and topological fiber bundles. His idea and our approach is
based on Lawvere's suggestion of viewing a metric space as an enriched
category. Actually, the metric fibration turns out to be the restriction of the
enriched Grothendieck fibrations to metric spaces. We give a complete
classification of metric fibrations by several means, which is parallel to that
of topological fiber bundles. That is, the classification of metric fibrations
is reduced to that of `principal fibrations', which is done by the `1-Cech
cohomology' in an appropriate sense. Here we introduce the notion of torsors in
the category of metric spaces, and the discussions are analogous to the sheaf
theory. Further, we can define the `fundamental group $\pi^m_1(X)$' of a metric
space $X$, which is a group object in metric spaces, such that the conjugation
classes of homomorphisms $Hom(\pi^m_1(X), G)$ corresponds to the isomorphism
classes of `principal $G$-fibrations' over $X$. Namely, it is classified like
topological covering spaces.</description><subject>Mathematics - Algebraic Topology</subject><subject>Mathematics - Category Theory</subject><subject>Mathematics - Metric Geometry</subject><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><sourceid>GOX</sourceid><recordid>eNotzj0LwjAUheEsDlL9AU4WnFuTNNcmoxS_QHDpXm7aXAi0VtIi-u_F6nTgHQ4PYyvBU6UB-BbDyz9TmfE85SrT-ZxtihaHwZOvcfT9Pe4p7twYfB2Tt2Fqw4LNCNvBLf8bsfJ4KItzcr2dLsX-muAuzxMnQdWODDbUWCU5SaeEFUBCk0CFBkHrGjQCSAShCKxxhlujHSJ3TRax9e92UlaP4DsM7-qrrSZt9gHkpzo3</recordid><startdate>20230710</startdate><enddate>20230710</enddate><creator>Asao, Yasuhiko</creator><scope>AKZ</scope><scope>GOX</scope></search><sort><creationdate>20230710</creationdate><title>Classification of metric fibrations</title><author>Asao, Yasuhiko</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a677-e254cef9adfdb420f2e41b15f18f1a4a9a588c58a552a514f5b9e90b98eaa0ed3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2023</creationdate><topic>Mathematics - Algebraic Topology</topic><topic>Mathematics - Category Theory</topic><topic>Mathematics - Metric Geometry</topic><toplevel>online_resources</toplevel><creatorcontrib>Asao, Yasuhiko</creatorcontrib><collection>arXiv Mathematics</collection><collection>arXiv.org</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Asao, Yasuhiko</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Classification of metric fibrations</atitle><date>2023-07-10</date><risdate>2023</risdate><abstract>In this paper, we study `a fibration of metric spaces' that was originally
introduced by Leinster in the study of the magnitude and called metric
fibrations. He showed that the magnitude of a metric fibration splits into the
product of those of the fiber and the base, which is analogous to the Euler
characteristic and topological fiber bundles. His idea and our approach is
based on Lawvere's suggestion of viewing a metric space as an enriched
category. Actually, the metric fibration turns out to be the restriction of the
enriched Grothendieck fibrations to metric spaces. We give a complete
classification of metric fibrations by several means, which is parallel to that
of topological fiber bundles. That is, the classification of metric fibrations
is reduced to that of `principal fibrations', which is done by the `1-Cech
cohomology' in an appropriate sense. Here we introduce the notion of torsors in
the category of metric spaces, and the discussions are analogous to the sheaf
theory. Further, we can define the `fundamental group $\pi^m_1(X)$' of a metric
space $X$, which is a group object in metric spaces, such that the conjugation
classes of homomorphisms $Hom(\pi^m_1(X), G)$ corresponds to the isomorphism
classes of `principal $G$-fibrations' over $X$. Namely, it is classified like
topological covering spaces.</abstract><doi>10.48550/arxiv.2307.04387</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Mathematics - Algebraic Topology Mathematics - Category Theory Mathematics - Metric Geometry |
| title | Classification of metric fibrations |
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