AI Article Synopsis
- The study focuses on using Sentinel-2 multispectral remote sensing imagery to analyze the spatial distribution of fruit tree planting for better growth monitoring, pest control, and yield estimation.
- Various vegetation indices, both conventional and improved, were utilized as input variables for a decision tree classification model that leverages machine learning technology.
- Results indicated that certain vegetation index configurations provided high accuracy for classifying fruit trees, suggesting this approach could be beneficial for large-scale monitoring of fruit tree areas using remote sensing techniques.
Article Abstract
Accurately obtaining the spatial distribution information of fruit tree planting is of great significance to the development of fruit tree growth monitoring, disease and pest control, and yield estimation. In this study, the Sentenel-2 multispectral remote sensing imageries of different months during the growth period of the fruit trees were used as the data source, and single month vegetation indices, accumulated monthly vegetation indices (∑VIs), and difference vegetation indices between adjacent months (∆VIs) were constructed as input variables. Four conventional vegetation indices of NDVI, PSRI, GNDVI, and RVI and four improved vegetation indices of NDVIre1, NDVIre2, NDVIre3, and NDVIre4 based on the red-edge band were selected to construct a decision tree classification model combined with machine learning technology. Through the analysis of vegetation indices under different treatments and different months, combined with the attribute of Feature_importances_, the vegetation indices of different periods with high contribution were selected as input features, and the Max_depth values of the decision tree model were determined by the hyperparameter learning curve. The results have shown that when the Max_depth value of the decision tree model of the vegetation indices under the three treatments was 6, 8, and 8, the model classification was the best. The accuracy of the three vegetation index processing models on the training set were 0.8936, 0.9153, and 0.8887, and the accuracy on the test set were 0.8355, 0.7611, and 0.7940, respectively. This method could be applied to remote sensing classification of fruit trees in a large area, and could provide effective technical means for monitoring fruit tree planting areas with medium and high resolution remote sensing imageries.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9262888 | PMC |
| http://dx.doi.org/10.1038/s41598-022-15414-0 | DOI Listing |
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