SPEED IMPROVEMENT OF MULTIVARIATE ALGORITHMS BY THE METHOD OF POSTPONED BASIS MATRIX MULTIPLICATION .2. 3-MODE PRINCIPAL COMPONENT ANALYSIS

Authors
ALSBERG BK KVALHEIM OM
Citation
Bk. Alsberg et Om. Kvalheim, SPEED IMPROVEMENT OF MULTIVARIATE ALGORITHMS BY THE METHOD OF POSTPONED BASIS MATRIX MULTIPLICATION .2. 3-MODE PRINCIPAL COMPONENT ANALYSIS, Chemometrics and intelligent laboratory systems, 24(1), 1994, pp. 43-54
Citations number
11
Categorie Soggetti
Computer Application, Chemistry & Engineering","Instument & Instrumentation","Chemistry Analytical","Computer Science Artificial Intelligence","Robotics & Automatic Control
Journal title
Chemometrics and intelligent laboratory systemsACNP
ISSN journal
01697439
Volume
24
Issue
1
Year of publication
1994
Pages
43 - 54
Database
ISI
SICI code
0169-7439(1994)24:1<43:SIOMAB>2.0.ZU;2-T
Abstract
Compression is one way of making analysis of large data arrays faster. Compression is here defined as the case when a large array X is repla ced by a smaller coefficient array C. The coefficients are obtained by least squares fitting to some compression basis. This paper will deal with three-mode arrays. When performing, e.g., three-mode principal c omponent analysis of C the results are comparable but not equal to the results from analyzing X. In this paper we suggest a solution to this problem by rewriting the three-mode PCA algorithm which utilizes C an d the compression basis matrices. This has been accomplished by applyi ng a method where speed improvement is achieved by postponing basis ma trix calculations in key steps of the three-mode PCA algorithm.