# Metric projection

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operator of best approximation

A many-valued mapping , associating to each element of a metric space the set

of elements of best approximation (cf. Element of best approximation) from the set . If is a Chebyshev set, then the metric projection is a single-valued mapping. The problem of constructing an element of best approximation is often solved approximately, that is, an element is determined in the set

where is sufficiently small. From the properties of the mapping it is sometimes possible to obtain properties of the set . E.g., if for any element of a normed space a number exists such that is convex (connected), then is convex (respectively, connected).

From the point of view of applications it is useful to know whether the metric projection has such properties as linearity, continuity, uniform continuity, etc. A metric projection on a Chebyshev subspace of a normed space is, in general, not linear. If the metric projection on each subspace of fixed dimension is single-valued and linear, then is linearly isometric to an inner-product space. The metric projection on a non-empty approximately-compact set in a metric space is upper semi-continuous; in particular, in a normed space the metric projection onto a finite-dimensional Chebyshev subspace is continuous; the metric projection may be not lower semi-continuous if the subspace is not Chebyshev. There exists a reflexive strictly-convex space and an infinite-dimensional subspace on which the metric projection is discontinuous. The metric projection on any closed convex set in a Hilbert space satisfies a Lipschitz condition:

with constant .

The continuity property of a metric projection and its generalizations have found applications in ill-posed problems, in the convexity problem for Chebyshev sets, in the construction of elements of best approximation, etc.

#### References

 [1] I.M. Singer, "The theory of best approximation and functional analysis" , CBMS Regional Conf. Ser. , 13 , SIAM (1974) [2] L.P. Vlasov, "Approximative properties of sets in normed linear spaces" Russian Math. Surveys , 28 : 6 (1973) pp. 3–66 Uspekhi Mat. Nauk , 28 : 6 (1973) pp. 3–66 [3] V.I. Berdyshev, "Uniform continuity of the metric projection and of the -projection" , Theory of Approximation of Functions. Internat. Conf., Kaluga 1975 , Moscow (1977) pp. 37–41 (In Russian)
How to Cite This Entry:
Metric projection. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Metric_projection&oldid=13496
This article was adapted from an original article by V.I. Berdyshev (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article