∞-groupoid

In category theory, a branch of mathematics, an ∞-groupoid is an abstract homotopical model for topological spaces. One model uses Kan complexes which are fibrant objects in the category of simplicial sets (with the standard model structure).[1] It is an ∞-category generalization of a groupoid, a category in which every morphism is an isomorphism.

The homotopy hypothesis states that ∞-groupoids are spaces.

Globular Groupoids

Alexander Grothendieck suggested in Pursuing Stacks that there should be an extraordinarily simple model of ∞-groupoids using globular sets. These sets are constructed as presheaves on the globular category $\mathbb {G}$ . This is defined as the category whose objects are finite ordinals $[n]$ and morphisms are given by

{\begin{aligned}\sigma _{n}:[n]\to [n+1]\\\tau _{n}:[n]\to [n+1]\end{aligned}}

such that the globular relations hold

{\begin{aligned}\sigma _{n+1}\circ \sigma _{n}&=\tau _{n+1}\circ \sigma _{n}\\\sigma _{n+1}\circ \tau _{n}&=\tau _{n+1}\circ \tau _{n}\end{aligned}}

These encode the fact that $n$ -morphisms should not be able to see $(n+1)$ -morphisms. We can also consider globular objects in a category ${\mathcal {C}}$ as functors

X_{\bullet }\colon \mathbb {G} ^{op}\to {\mathcal {C}}.

There was hope originally that such a strict model would be sufficient for homotopy theory, but there is evidence suggesting otherwise.

References

"Kan complex in nLab".

External links

infinity-groupoid in nLab
Maltsiniotis, Georges (2010), "Grothendieck ∞-groupoids, and still another definition of ∞-categories", arXiv:1009.2331
Zawadowski, Marek, Introduction to Test Categories (PDF), archived from the original (PDF) on 2015-03-26

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[1] "Kan complex in nLab".

∞-groupoid

Globular Groupoids

See also

References

External links