# An efficient k-means clustering algorithm: analysis and implementation

Title | An efficient k-means clustering algorithm: analysis and implementation |

Publication Type | Journal Articles |

Year of Publication | 2002 |

Authors | Kanungo T, Mount D, Netanyahu NS, Piatko CD, Silverman R, Wu AY |

Journal | Pattern Analysis and Machine Intelligence, IEEE Transactions on |

Volume | 24 |

Issue | 7 |

Pagination | 881 - 892 |

Date Published | 2002/07// |

ISBN Number | 0162-8828 |

Keywords | algorithm;color, algorithm;image, algorithm;kd-tree;mean, analysis;filtering, clustering, clustering;, compression;data, distance;covariance, Lloyd, matrices;filtering, quantization;data, segmentation;k-means, squared, structure;data-sensitive, theory;pattern |

Abstract | In k-means clustering, we are given a set of n data points in d-dimensional space Rd and an integer k and the problem is to determine a set of k points in Rd, called centers, so as to minimize the mean squared distance from each data point to its nearest center. A popular heuristic for k-means clustering is Lloyd's (1982) algorithm. We present a simple and efficient implementation of Lloyd's k-means clustering algorithm, which we call the filtering algorithm. This algorithm is easy to implement, requiring a kd-tree as the only major data structure. We establish the practical efficiency of the filtering algorithm in two ways. First, we present a data-sensitive analysis of the algorithm's running time, which shows that the algorithm runs faster as the separation between clusters increases. Second, we present a number of empirical studies both on synthetically generated data and on real data sets from applications in color quantization, data compression, and image segmentation |

DOI | 10.1109/TPAMI.2002.1017616 |