Wijsman convergence

Wijsman convergence is a variation of Hausdorff convergence suitable for work with unbounded sets. Intuitively, Wijsman convergence is to convergence in the Hausdorff metric as pointwise convergence is to uniform convergence.

History

The convergence was defined by Robert Wijsman.[1] The same definition was used earlier by Zdeněk Frolík.[2] Yet earlier, Hausdorff in in his book Grundzüge der Mengenlehre defined so called closed limits; for proper metric spaces it is the same as Wijsman convergence.

Definition

Let (X, d) be a metric space and let Cl(X) denote the collection of all d-closed subsets of X. For a point x  X and a set A  Cl(X), set

A sequence (or net) of sets Ai  Cl(X) is said to be Wijsman convergent to A  Cl(X) if, for each x  X,

Wijsman convergence induces a topology on Cl(X), known as the Wijsman topology.

Properties

The Hausdorff and Wijsman topologies on Cl(X) coincide if and only if (X, d) is a totally bounded space.

References

  1. Wijsman, Robert A. (1966). "Convergence of sequences of convex sets, cones and functions. II". Trans. Amer. Math. Soc. American Mathematical Society. 123 (1): 3245. doi:10.2307/1994611. JSTOR 1994611. MR 0196599
  2. Z. Frolík, Concerning topological convergence of sets, Czechoskovak Math. J. 10 (1960), 168–180

External links

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