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COMPGEOM
2009
ACM

Approximate center points with proofs

13 years 10 months ago
Approximate center points with proofs
We present the Iterated-Tverberg algorithm, the first deterministic algorithm for computing an approximate centerpoint of a set S ∈ Rd with running time sub-exponential in d. The algorithm is a derandomization of the IteratedRadon algorithm of Clarkson et al and is guaranteed to terminate with an O(1/d2 )-center. Moreover, it returns a polynomial-time checkable proof of the approximation guarantee, despite the coNP-Completenes of testing centerpoints in general. We also explore the use of higher order Tverberg partitions to improve the runtime of the deterministic algorithm and improve the approximation guarantee for the randomized algorithm. In particular, we show how to improve the O(1/d2 )-center of the Iterated-Radon algorithm to O(1/d r r−1 ) for a cost of O((rd)d ) in time for any integer r. Categories and Subject Descriptors F.2.2 [Analysis of Algorithms and Problem Complexity]: Nonnumerical Algorithms and Problems—geometrical problems and computations General Terms Algo...
Gary L. Miller, Donald Sheehy
Added 28 May 2010
Updated 28 May 2010
Type Conference
Year 2009
Where COMPGEOM
Authors Gary L. Miller, Donald Sheehy
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