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METRIC ENTROPY OF CONVEX HULLS IN HILBERT SPACES

Published online by Cambridge University Press:  01 July 1997

BERND CARL
BERND CARL
Affiliation:
Universität Jena, Fakultät für Mathematik und Informatik, D-07740 Jena, Germany
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Abstract

We show in this note the following statement which is an improvement over a result of R. M. Dudley and which is also of independent interest. Let X be a set of a Hilbert space with the property that there are constants ρ, σ>0, and for each n∈ℕ, the set X can be covered by at most n balls of radius ρn−σ. Then, for each n∈ℕ, the convex hull of X can be covered by 2n balls of radius cn−½−σ. The estimate is best possible for all n∈ℕ, apart from the value c=c(ρ, σ, X). In other words, let N(ε, X), ε>0, be the minimal number of balls of radius ε covering the set X. Then the above result is equivalent to saying that if N(ε, X)=O−1/σ) as ε↓0, then for the convex hull conv (X) of X, N(ε, conv (X)) =O(exp(ε−2/(1+2σ))). Moreover, we give an interplay between several covering parameters based on coverings by balls (entropy numbers) and coverings by cylindrical sets (Kolmogorov numbers).

Type
Research Article
Information
Bulletin of the London Mathematical Society , Volume 29 , Issue 4 , July 1997 , pp. 452 - 458
Copyright
© The London Mathematical Society 1997

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