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Mapping radii of metric spaces George M. Bergman |
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Vol. 236 (2008), No. 2, 223–261
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Abstract |
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It is known that every closed curve of length ≤ 4 in Rn for n > 0 can be surrounded by a sphere of radius 1, and that this is the best bound. Letting S denote the circle of circumference 4, with the arc-length metric, we here express this fact by saying that the mapping radius of S in Rn is 1. Tools are developed for estimating the mapping radius of a metric space X in a metric space Y . In particular, it is shown that for X a bounded metric space, the supremum of the mapping radii of X in all convex subsets of normed metric spaces is equal to the infimum of the sup norms of all convex linear combinations of the functions d(x,•) : X → R (x in X). Several explicit mapping radii are calculated, and open questions noted. |
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Keywordsnonexpansive map between metric spaces, maximum radius of image, convex subset of a normed vector space |
Mathematical Subject Classification 2000Primary: 54E40 Secondary: 46B20, 46E15, 52A40 |
MilestonesReceived: 8 April 2007 |
Authors |
| George M. Bergman | |
| Department of Mathematics University of California Berkeley, CA 94720-3840 United States |
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| http://math.berkeley.edu/~gbergman | |
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