We describe a practical and provably good algorithm for approximating center points in any number of dimensions.Here c is a center point of a point set P in lRd if every closed halfspace containing c contains at least lP1/(d+ 1) points of P. Our algorithm has a small constant factor and is the first approximate center point algorithm whose complexity is subexponential in d, Moreover, it can beoptimally parallelized to require O(log2 d log log n) time. Our algorithm has been used in mesh partitioning methods, and has the potential to improve results in practice for constructing weak e-nets and other geometric algorithms.We derive a variant of our algorithm with a time bound fully polynomial irl d, and show how to combine our approach with previous techniques to compute high quality center points more quickly.
We give a practical and provably good Monte Carlo algorithm for approximating center points. Let P be a set of n points in Rd. A point c∈Rd is a β-center point of P if every closed halfspace containing c contains at least βn points of P. Every point set has a 1/(d+1)-center point; our algorithm finds an Ω(1/d2)-center point with high probability. Our algorithm has a small constant factor and is the first approximate center point algorithm whose complexity is subexponential in d. Moreover, it can be optimally parallelized to require O( log 2d log log n) time. Our algorithm has been used in mesh partitioning methods and can be used in the construction of high breakdown estimators for multivariate datasets in statistics. It has the potential to improve results in practice for constructing weak ∊-nets. We derive a variant of our algorithm whose time bound is fully polynomial in d and linear in n, and show how to combine our approach with previous techniques to compute high quality center points more quickly.
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