Drought Stress Grading Model for Apple Rootstock Softwood Cuttings Based on the CU-ICA-Net

Drought Stress Grading Model for Apple Rootstock Softwood Cuttings Based on the CU-ICA-Net

In order to maintain adequate hydration of apple rootstock softwood cuttings during the initial stage of cutting, a drought stress grading model based on machine vision was designed. This model was optimized based on the U-Net (U-shaped Neural Network), and the petiole morphology of the cuttings was...

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Bibliographic Details
Main Authors: Xu Wang, Pengfei Wang, Jianping Li, Hongjie Liu, Xin Yang
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Agronomy
Subjects:
softwood cuttings of apple rootstock
drought stress
petiole morphology
U-Net
automatic humidification
Online Access:https://www.mdpi.com/2073-4395/15/7/1508
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Summary:In order to maintain adequate hydration of apple rootstock softwood cuttings during the initial stage of cutting, a drought stress grading model based on machine vision was designed. This model was optimized based on the U-Net (U-shaped Neural Network), and the petiole morphology of the cuttings was used as the basis for classifying the drought stress levels. For the CU-ICA-Net model, which is obtained by improving U-Net with the ICA (Improved Coordinate Attention) module designed using a cascaded structure and dynamic convolution, the average accuracy rate of the predictions for the three parts of the cuttings, namely the leaf, stem, and petiole, is 93.37%. The <i>R</i><sup>2</sup> values of the prediction results for the petiole curvature <i>k</i> and the angle <i>α</i> between the petiole and the stem are 0.8109 and 0.8123, respectively. The dataset used for model training consists of 1200 RGB images of cuttings under different grades of drought stress. The ratio of the training set to the test set is 1:0.7. A humidification test was carried out using an automatic humidification system equipped with this model. The MIoU (Mean Intersection over Union) value is 0.913, and the FPS (Frames Per Second) value is 31.90. The test results prove that the improved U-Net model has excellent performance, providing a method for the design of an automatic humidification control system for industrialized cutting propagation of apple rootstocks.
ISSN:2073-4395

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