Dual-Tree Fast Gauss Transforms

02/14/2011
by   Dongryeol Lee, et al.
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Kernel density estimation (KDE) is a popular statistical technique for estimating the underlying density distribution with minimal assumptions. Although they can be shown to achieve asymptotic estimation optimality for any input distribution, cross-validating for an optimal parameter requires significant computation dominated by kernel summations. In this paper we present an improvement to the dual-tree algorithm, the first practical kernel summation algorithm for general dimension. Our extension is based on the series-expansion for the Gaussian kernel used by fast Gauss transform. First, we derive two additional analytical machinery for extending the original algorithm to utilize a hierarchical data structure, demonstrating the first truly hierarchical fast Gauss transform. Second, we show how to integrate the series-expansion approximation within the dual-tree approach to compute kernel summations with a user-controllable relative error bound. We evaluate our algorithm on real-world datasets in the context of optimal bandwidth selection in kernel density estimation. Our results demonstrate that our new algorithm is the only one that guarantees a hard relative error bound and offers fast performance across a wide range of bandwidths evaluated in cross validation procedures.

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