nLab cohomology of a category

Idea

cohomology

Special and general types

Special notions

Variants

equivariant cohomology
- equivariant homotopy theory
- Bredon cohomology
twisted cohomology
- twisted bundle
  - twisted K-theory, twisted spin structure, twisted spin^c structure
- twisted differential c-structures
  - twisted differential string structure, twisted differential fivebrane structure
differential cohomology
- differential generalized (Eilenberg-Steenrod) cohomology
- differential cohomology in a cohesive topos
  - Chern-Weil theory
  - ∞-Chern-Weil theory
relative cohomology

Extra structure

Operations

Theorems

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Idea

The cohomology of a category $C$ is often defined to be the groupoid cohomology of the ∞-groupoid that is presented by the nerve of the category.

Hence for $\mathbf{A}$ some coefficient ∞-groupoid – typically, but not necessarily, an Eilenberg-MacLane object $\mathbf{A} = K(A,n) = \mathbf{B}^n A$ – regarded as a Kan complex, the cohomology of $C$ in this sense is

H^n(C,A) := \pi_0 \infty Grpd( F(N(C)), \mathbf{A} ) \,,

where

$N(C)$ is the nerve of $C$ ;
$F(N(C))$ is the Kan fibrant replacement of $N(C)$ ;
∞Grpd is the (∞,1)-category of ∞-groupoids.

Using the standard model structure on simplicial sets this is the same as the hom-set in the homotopy category of SSet

\cdots = Ho_{SSet}(N(C), \mathbf{A}) \,.

One can also use the Thomason model structure on Cat to say the same: due to the Quillen equivalence $Cat_{Thomason} \stackrel{Quillen}{\simeq} SSet_{Quillen}$ we have for $\alpha$ any category whose groupoidification is equivalent to $\mathbf{A}$ , i.e. any cateory such that $F(N(\alpha)) \simeq \mathbf{A}$ in ∞Grpd, we have

\cdots = Ho_{Cat_{Thomason}}(C,\alpha) \,.

Last revised on August 12, 2016 at 12:53:32. See the history of this page for a list of all contributions to it.