DocumentCode
1214625
Title
Independent component analysis applied on gas sensor array measurement data
Author
Kermit, Martin ; Tomic, Oliver
Author_Institution
Phys. Sect., Agric. Univ. of Norway, As, Norway
Volume
3
Issue
2
fYear
2003
fDate
4/1/2003 12:00:00 AM
Firstpage
218
Lastpage
228
Abstract
The performance of gas-sensor array systems is greatly influenced by the pattern recognition scheme applied on the instrument´s measurement data. The traditional method of choice is principal component analysis (PCA), aiming for reduction in dimensionality and visualization of multivariate measurement data. PCA, as a second-order statistical tool, performs well in many cases, but lacks the ability to give meaningful representations for non-Gaussian data, which often is a property of gas-sensor array measurement data. If, instead, higher order statistical methods are considered for data analysis, more useful information can be extracted from the data. This paper introduces the higher order statistical method called independent component analysis (ICA) as a novel tool for analysis of gas-sensor array measurement data. A comparison between the performances of PCA and ICA is illustrated both in theory and for two sets of practical measurement data. The described experiments show that ICA is capable of handling sensor drift combined with improved discrimination, dimensionality reduction, and more adequate data representation when compared to PCA.
Keywords
arrays; data analysis; gas sensors; higher order statistics; independent component analysis; pattern recognition; ICA; dimensionality reduction; discrimination; electronic nose; gas-sensor array systems; higher order statistical method; independent component analysis; multivariate measurement data; nonGaussian data; pattern recognition scheme; sensor array measurement data; sensor drift; Data analysis; Data visualization; Gas detectors; Independent component analysis; Instruments; Pattern recognition; Performance evaluation; Principal component analysis; Sensor arrays; Statistical analysis;
fLanguage
English
Journal_Title
Sensors Journal, IEEE
Publisher
ieee
ISSN
1530-437X
Type
jour
DOI
10.1109/JSEN.2002.807488
Filename
1202947
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