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A Strategy That Iteratively Retains Informative Variables for Selecting Optimal Variable Subset in Multivariate Calibration

Overview
Journal Anal Chim Acta
Publisher Elsevier
Specialty Chemistry
Date 2013 Dec 21
PMID 24356218
Citations 22
Authors
Yong-Huan Yun
Wei-Ting Wang
Min-Li Tan
Yi-Zeng Liang
Hong-Dong Li
Dong-Sheng Cao
Hong-Mei Lu
Qing-Song Xu
Affiliations
Soon will be listed here.
Abstract

Nowadays, with a high dimensionality of dataset, it faces a great challenge in the creation of effective methods which can select an optimal variables subset. In this study, a strategy that considers the possible interaction effect among variables through random combinations was proposed, called iteratively retaining informative variables (IRIV). Moreover, the variables are classified into four categories as strongly informative, weakly informative, uninformative and interfering variables. On this basis, IRIV retains both the strongly and weakly informative variables in every iterative round until no uninformative and interfering variables exist. Three datasets were employed to investigate the performance of IRIV coupled with partial least squares (PLS). The results show that IRIV is a good alternative for variable selection strategy when compared with three outstanding and frequently used variable selection methods such as genetic algorithm-PLS, Monte Carlo uninformative variable elimination by PLS (MC-UVE-PLS) and competitive adaptive reweighted sampling (CARS). The MATLAB source code of IRIV can be freely downloaded for academy research at the website: http://code.google.com/p/multivariate-calibration/downloads/list.

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