Top-k closest pairs join query: an approximate algorithm for large high dimensional data

In This work we present a novel approximate algorithm to calculate the top k closest pairs join query of two large and high dimensional data sets. The algorithm has worst case time complexity O(d/sup 2/nk) and space complexity O(nd) and guarantees a solution within a O(d/sup 1+ 1/2 /) factor of the...

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Bibliographic Details
Main Authors: Angiulli, F., Pizzuti, C.
Format: Conference Proceeding
Language:English
Subjects:
Applied sciences
Approximation algorithms
Computational geometry
Computer science
control theory
systems
Data mining
Data structures
Exact sciences and technology
Extraterrestrial measurements
Filling
Information systems. Data bases
Memory organisation. Data processing
Multidimensional systems
Software
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Summary:In This work we present a novel approximate algorithm to calculate the top k closest pairs join query of two large and high dimensional data sets. The algorithm has worst case time complexity O(d/sup 2/nk) and space complexity O(nd) and guarantees a solution within a O(d/sup 1+ 1/2 /) factor of the exact one, where t /spl isin/ {1,2,..., /spl infin/} denotes the Minkowski metrics L/sub t/ of interest and d the dimensionality. It makes use of the concept of space filling curve to establish an order between the points of the space and performs at most d + 1 sorts and scans of the two data sets. During a scan, each point from one data set is compared with its closest points, according to the space filling curve order, in the other data set and points whose contribution to the solution has already been analyzed are detected and eliminated. Experimental results on real and synthetic data sets show that our algorithm (i) behaves as an exact algorithm in low dimensional spaces; (ii) it is able to prune the entire (or a considerable fraction of the) data set even for high dimensions if certain separation conditions are satisfied; (iii) in any case it returns a solution within a small error to the exact one.
ISSN:1098-8068
DOI:10.1109/IDEAS.2004.1319783