A Sub-Quadratic Exact Medoid Algorithm

A Sub-Quadratic Exact Medoid Algorithm

We present a new algorithm, trimed, for obtaining the medoid of a set, that is the element of the set which minimises the mean distance to all other elements. The algorithm is shown to have, under certain assumptions, expected run time O(N^(3/2)) in R^d where N is the set size, making it the first s...

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Hauptverfasser: Newling, James, Fleuret, François
Format: Artikel
Sprache:eng
Schlagworte:
Computer Science - Data Structures and Algorithms
Computer Science - Learning
Statistics - Machine Learning
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Zusammenfassung:We present a new algorithm, trimed, for obtaining the medoid of a set, that is the element of the set which minimises the mean distance to all other elements. The algorithm is shown to have, under certain assumptions, expected run time O(N^(3/2)) in R^d where N is the set size, making it the first sub-quadratic exact medoid algorithm for d>1. Experiments show that it performs very well on spatial network data, frequently requiring two orders of magnitude fewer distance calculations than state-of-the-art approximate algorithms. As an application, we show how trimed can be used as a component in an accelerated K-medoids algorithm, and then how it can be relaxed to obtain further computational gains with only a minor loss in cluster quality.
DOI:10.48550/arxiv.1605.06950