JOURNAL OF LIGHT INDUSTRY

CN 41-1437/TS  ISSN 2096-1553

Volume 38 Issue 6
December 2023
Article Contents
    ZHAO Hanqing, WANG Bin, CHEN Yao, et al. Research on geographical origin traceability of Coix seed based on a modified random forest algorithm[J]. Journal of Light Industry, 2023, 38(6): 70-77. doi: 10.12187/2023.06.009
    Citation: ZHAO Hanqing, WANG Bin, CHEN Yao, et al. Research on geographical origin traceability of Coix seed based on a modified random forest algorithm[J]. Journal of Light Industry, 2023, 38(6): 70-77. doi: 10.12187/2023.06.009 shu

    Research on geographical origin traceability of Coix seed based on a modified random forest algorithm

    • 1. Institute of Applied Chemistry/School of Science, Central South University of Forestry and Technology, Changsha 410004, China;

    • 2. College of Life Sciences and Chemistry, Hunan University of Technology, Zhuzhou 412007, China;

    • 3. State Key Laboratory of Chemo/Biosensing and Chemometrics/College of Chemistry and Chemical Engineering, Hunan University, Changsha 410082, China;

    • 4. National Resource Center for Chinese Materia Medica, China Academy of Chinese Medical Sciences, State Key Laboratory Breeding Base of Dao-di Herbs, Beijng 100700, China

    • Received Date: 2023-05-04
      Accepted Date: 2023-06-12
    • Coix seeds from 9 different origins were taken as the research object. An attempt was made to achieve geographical origin traceability of Coix seeds through the combination of excitation-emission matrix (EEM) fluorescence spectroscopy with improved random forest algorithm. The improvements to the random forest algorithm mainly include two aspects, firstly, principal component analysis (PCA) was adopted to reduce the dimension of EEM fluorescent data; secondly, a grid search method was used to identify the optimal number of principal components(PCs) to retain and the hyperparameters of the discriminant model during the PCA dimension reduction process. The results showed that an improved random forest model, incorporating standard deviation normalization and PCA dimension reduction modules, based on Coix seeds EEM fluorescence spectroscopy data, accurately predicted the geographical origin of Coix seed samples from 9 different areas. The optimal model was constructed by combining 100 decision trees with a maximum depth of 3 and a minimum sample size of 1 at the leaf node, using 16 principal components (PCs). This model achieved 100% prediction accuracy for both the validation and test sets, which consisted of a total of 108 samples, outperforming the PLS-DA model constructed by the partial least squares method (96% prediction accuracy).
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