Principal component analysis for probabilistic symbolic data: a more generic and accurate algorithm

In the symbolic data framework, probabilistic symbolic data are considered as those whose components are random variables with general probability distributions. Intervals (or uniform distributions), histograms (or empirical distributions), Gaussian distribution and Chi-squared distribution are all...

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Bibliographic Details
Published inAdvances in data analysis and classification Vol. 9; no. 1; pp. 59 - 79
Main Authors Chen, Meiling, Wang, Huiwen, Qin, Zhongfeng
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.03.2015
Subjects
Chemistry and Earth Sciences
Computer Science
Data Mining and Knowledge Discovery
Economics
Finance
Health Sciences
Humanities
Insurance
Law
Management
Mathematics and Statistics
Medicine
Physics
Regular Article
Statistical Theory and Methods
Statistics
Statistics for Business
Statistics for Engineering
Statistics for Life Sciences
Statistics for Social Sciences
Characteristic function
62-07
Symbolic data
Principal component analysis
Probabilistic symbolic data
62H25
Online AccessGet full text
ISSN1862-5347
1862-5355
DOI10.1007/s11634-014-0178-2

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Summary:In the symbolic data framework, probabilistic symbolic data are considered as those whose components are random variables with general probability distributions. Intervals (or uniform distributions), histograms (or empirical distributions), Gaussian distribution and Chi-squared distribution are all the special cases of them. The existing approaches devoted to the subject have a common shortcoming since they can not obtain the distributions of linear combinations (i.e., principal components) of random variables especially for not identically distributed ones. This paper will overcome the shortcoming by providing an exact probability density function for each principal component by using the inversion theorem. Further, the paper defines a covariance matrix for probabilistic symbolic data and presents a new principal component analysis based on this variance–covariance structure. The effectiveness of the proposed method is illustrated by a simulated numerical experiment, and two real-life cases including clustering of oils and fats data, and evaluation of indexed journals of Science Citation Index.
ISSN:1862-5347
1862-5355
DOI:10.1007/s11634-014-0178-2