Open AccessA Vibration Method for Discovering Density Varied Clusters
Author(s) -
Mohammad T. Elbatta,
Raed M. Bolbol,
Wesam M. Ashour
Publication year - 2011
Publication title -
isrn artificial intelligence
Language(s) - English
Resource type - Journals
eISSN - 2090-7443
pISSN - 2090-7435
DOI - 10.5402/2012/723516
Subject(s) - dbscan , cluster analysis , cluster (spacecraft) , outlier , noise (video) , determining the number of clusters in a data set , pattern recognition (psychology) , computer science , homogeneous , base (topology) , data mining , mathematics , artificial intelligence , correlation clustering , cure data clustering algorithm , combinatorics , image (mathematics) , mathematical analysis , programming language
DBSCAN is a base algorithm for density-based clustering. It can find out the clusters of different shapes and sizes from a large amount of data, which is containing noise and outliers. However, it is fail to handle the local density variation that exists within the cluster. Thus, a good clustering method should allow a significant density variation within the cluster because, if we go for homogeneous clustering, a large number of smaller unimportant clusters may be generated. In this paper, an enhancement of DBSCAN algorithm is proposed, which detects the clusters of different shapes and sizes that differ in local density. Our proposed method VMDBSCAN first finds out the “core” of each cluster—clusters generated after applying DBSCAN. Then, it “vibrates” points toward the cluster that has the maximum influence on these points. Therefore, our proposed method can find the correct number of clusters.
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