A PCA-Based Change Detection Framework for Multidimensional Data Streams
Author(s) -
Abdulhakim A. Qahtan,
Basma Alharbi,
Suojin Wang,
Xiangliang Zhang
Publication year - 2015
Publication title -
king abdullah university of science and technology repository (king abdullah university of science and technology)
Language(s) - English
Resource type - Conference proceedings
DOI - 10.1145/2783258.2783359
Subject(s) - computer science , data stream mining , change detection , principal component analysis , univariate , data mining , divergence (linguistics) , estimator , multidimensional analysis , density estimation , data modeling , artificial intelligence , pattern recognition (psychology) , statistics , machine learning , multivariate statistics , mathematics , database , linguistics , philosophy
Detecting changes in multidimensional data streams is an important and challenging task. In unsupervised change detection, changes are usually detected by comparing the distribution in a current (test) window with a reference window. It is thus essential to design divergence metrics and density estimators for comparing the data distributions, which are mostly done for univariate data. Detecting changes in multidimensional data streams brings difficulties to the density estimation and comparisons. In this paper, we propose a framework for detecting changes in multidimensional data streams based on principal component analysis, which is used for projecting data into a lower dimensional space, thus facilitating density estimation and change-score calculations.\ud\udThe proposed framework also has advantages over existing approaches by reducing computational costs with an efficient density estimator, promoting the change-score calculation by introducing effective divergence metrics, and by minimizing the efforts required from users on the threshold parameter setting by using the Page-Hinkley test. The evaluation results on synthetic and real data show that our framework outperforms two baseline methods in terms of both detection accuracy and computational costs
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