Yewang Chen scite author profile

Clustering is an important technique to deal with large scale data which are explosively created in internet. Most data are high-dimensional with a lot of noise, which brings great challenges to retrieval, classification and understanding. No current existing approach is "optimal" for large scale data. For example, DB-SCAN requires O(n 2 ) time, Fast-DBSCAN only works well in 2 dimensions, and ρ-Approximate DBSCAN runs in O(n) expected time which needs dimension D to be a relative small constant for the linear running time to hold. However, we prove theoretically and experimentally that ρ-Approximate DBSCAN degenerates to an O(n 2 ) algorithm in very high dimension such that 2 D >> n. In this paper, we propose a novel local neighborhood searching technique, and apply it to improve DBSCAN, named as NQ-DBSCAN, such that a large number of unnecessary distance computations can be effectively reduced. Theoretical analysis and experimental results show that NQ-DBSCAN averagely runs in O(n * log(n)) with the help of indexing technique, and the best case is O(n) if

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Fast density peak clustering for large scale data based on kNN

Chen

Fan

et al. 2020

Knowledge-Based Systems

189

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Yewang Chen

A fast clustering algorithm based on pruning unnecessary distance computations in DBSCAN for high-dimensional data

Fast density peak clustering for large scale data based on kNN

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