In mathematics, specifically in the study of topology and open covers of a topological space X, a star refinement is a particular kind of refinement of an open cover of X. A related concept is the notion of barycentric refinement.

Star refinements are used in the definition of fully normal space and in one definition of uniform space. It is also useful for stating a characterization of paracompactness.

Definitions

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The general definition makes sense for arbitrary coverings and does not require a topology. Let   be a set and let   be a covering of   that is,   Given a subset   of   the star of   with respect to   is the union of all the sets   that intersect   that is,  

Given a point   we write   instead of  

A covering   of   is a refinement of a covering   of   if every   is contained in some   The following are two special kinds of refinement. The covering   is called a barycentric refinement of   if for every   the star   is contained in some  [1][2] The covering   is called a star refinement of   if for every   the star   is contained in some  [3][2]

Properties and Examples

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Every star refinement of a cover is a barycentric refinement of that cover. The converse is not true, but a barycentric refinement of a barycentric refinement is a star refinement.[4][5][6][7]

Given a metric space   let   be the collection of all open balls   of a fixed radius   The collection   is a barycentric refinement of   and the collection   is a star refinement of  

See also

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Notes

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  1. ^ Dugundji 1966, Definition VIII.3.1, p. 167.
  2. ^ a b Willard 2004, Definition 20.1.
  3. ^ Dugundji 1966, Definition VIII.3.3, p. 167.
  4. ^ Dugundji 1966, Prop. VIII.3.4, p. 167.
  5. ^ Willard 2004, Problem 20B.
  6. ^ "Barycentric Refinement of a Barycentric Refinement is a Star Refinement". Mathematics Stack Exchange.
  7. ^ Brandsma, Henno (2003). "On paracompactness, full normality and the like" (PDF).

References

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