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Skeleton (topology)

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Title: Skeleton (topology)  
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Subject: Hypercube, Zonohedron, Cross-polytope, Triangulation (topology), Connectivity (graph theory), Wheel graph, Pyramid (geometry), Geometric graph theory, K-vertex-connected graph
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Skeleton (topology)

This article is not about the topological skeleton concept of computer graphics

In mathematics, particularly in algebraic topology, the n-skeleton of a topological space X presented as a simplicial complex (resp. CW complex) refers to the subspace Xn that is the union of the simplices of X (resp. cells of X) of dimensions mn. In other words, given an inductive definition of a complex, the n-skeleton is obtained by stopping at the n-th step.

These subspaces increase with n. The 0-skeleton is a discrete space, and the 1-skeleton a topological graph. The skeletons of a space are used in obstruction theory, to construct spectral sequences by means of filtrations, and generally to make inductive arguments. They are particularly important when X has infinite dimension, in the sense that the Xn do not become constant as n → ∞.

In geometry

In geometry, a k-skeleton of n-polytope P (functionally represented as skelk(P)) consists of all i-polytope elements of dimension up to k.[1]

For example:

skel0(cube) = 8 vertices
skel1(cube) = 8 vertices, 12 edges
skel2(cube) = 8 vertices, 12 edges, 6 square faces

For simplicial sets

The above definition of the skeleton of a simplicial complex is a particular case of the notion of skeleton of a simplicial set. Briefly speaking, a simplicial set K_* can be described by a collection of sets K_i, \ i \geq 0, together with face and degeneracy maps between them satisfying a number of equations. The idea of the n-skeleton sk_n(K_*) is to first discard the sets K_i with i > n and then to complete the collection of the K_i with i \leq n to the "smallest possible" simplicial set so that the resulting simplicial set contains no non-degenerate simplices in degrees i > n.

More precisely, the restriction functor

i_*: \Delta^{op} Sets \rightarrow \Delta^{op}_{\leq n} Sets

has a left adjoint, denoted i^*.[2] (The notations i^*, i_* are comparable with the one of image functors for sheaves.) The n-skeleton of some simplicial set K_* is defined as

sk_n(K) := i^* i_* K.


Moreover, i_* has a right adjoint i^!. The n-coskeleton is defined as

cosk_n(K) := i^! i_* K.

For example, the 0-skeleton of K is the constant simplicial set defined by K_0. The 0-coskeleton is given by the Cech nerve

\dots \rightarrow K_0 \times K_0 \rightarrow K_0.

(The boundary and degeneracy morphisms are given by various projections and diagonal embeddings, respectively.)

The above constructions work for more general categories (instead of sets) as well, provided that the category has fiber products. The coskeleton is needed to define the concept of hypercovering in homotopical algebra and algebraic geometry.[3]


External links

  • MathWorld.
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