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Randomized Dimensionality Reduction for k-means Clustering

Data Structures and Algorithms 2015-03-19 v3 Machine Learning

Abstract

We study the topic of dimensionality reduction for kk-means clustering. Dimensionality reduction encompasses the union of two approaches: \emph{feature selection} and \emph{feature extraction}. A feature selection based algorithm for kk-means clustering selects a small subset of the input features and then applies kk-means clustering on the selected features. A feature extraction based algorithm for kk-means clustering constructs a small set of new artificial features and then applies kk-means clustering on the constructed features. Despite the significance of kk-means clustering as well as the wealth of heuristic methods addressing it, provably accurate feature selection methods for kk-means clustering are not known. On the other hand, two provably accurate feature extraction methods for kk-means clustering are known in the literature; one is based on random projections and the other is based on the singular value decomposition (SVD). This paper makes further progress towards a better understanding of dimensionality reduction for kk-means clustering. Namely, we present the first provably accurate feature selection method for kk-means clustering and, in addition, we present two feature extraction methods. The first feature extraction method is based on random projections and it improves upon the existing results in terms of time complexity and number of features needed to be extracted. The second feature extraction method is based on fast approximate SVD factorizations and it also improves upon the existing results in terms of time complexity. The proposed algorithms are randomized and provide constant-factor approximation guarantees with respect to the optimal kk-means objective value.

Keywords

Cite

@article{arxiv.1110.2897,
  title  = {Randomized Dimensionality Reduction for k-means Clustering},
  author = {Christos Boutsidis and Anastasios Zouzias and Michael W. Mahoney and Petros Drineas},
  journal= {arXiv preprint arXiv:1110.2897},
  year   = {2015}
}

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IEEE Transactions on Information Theory, to appear

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