Journal
CHEMOMETRICS AND INTELLIGENT LABORATORY SYSTEMS
Volume 170, Issue -, Pages 1-12Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.chemolab.2017.09.001
Keywords
Two-dimensional classification; 2D-PCA-LDA; 2D-PCA-QDA; 2D-PCA-SVM; Three-way data; EEM
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Funding
- PPGQ/UFRN
- CAPES
- CNPq [305962/2014-4]
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Three-way data has been increasingly used in chemical applications. However, few algorithms are capable of properly classifying this type of data maintaining its original dimensions. Unfolding procedures are commonly employed to reduce the data dimension and enable its classification using first order algorithms. In this paper, modified versions of two-dimensional principal component analysis with linear discriminant analysis (2D-PCA-LDA), quadratic discriminant analysis (2D-PCA-QDA), and support vector machines (2D-PCA-SVM) have been proposed to classify three-way chemical data. Applications were performed for two-category classification using fluorescence excitation emission matrix (EEM) of simulated and three real data sets, in which the performance of the proposed algorithms were compared with regular PCA-LDA, PCA-QDA and PCA-SVM using unfolding proceedings. The results show that 2D algorithms had equal or superior classification performance in the four data sets analyzed, thus indicating its ability to classify this type of data.
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