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Two-Stage Detection Algorithm for Plum Leaf Disease and Severity Assessment Based on Deep Learning

Caihua Yao, Ziqi Yang, Peifeng Li, Y. F. Liang, Yamin Fan, Jinwen Luo, Chengmei Jiang, Jiong Mu

2024Agronomy18 citationsDOIOpen Access PDF

Abstract

Crop diseases significantly impact crop yields, and promoting specialized control of crop diseases is crucial for ensuring agricultural production stability. Disease identification primarily relies on human visual inspection, which is inefficient, inaccurate, and subjective. This study focused on the plum red spot (Polystigma rubrum), proposing a two-stage detection algorithm based on deep learning and assessing the severity of the disease through lesion coverage rate. The specific contributions are as follows: We utilized the object detection model YOLOv8 to strip leaves to eliminate the influence of complex backgrounds. We used an improved U-Net network to segment leaves and lesions. We combined Dice Loss with Focal Loss to address the poor training performance due to the pixel ratio imbalance between leaves and disease spots. For inconsistencies in the size and shape of leaves and lesions, we utilized ODConv and MSCA so that the model could focus on features at different scales. After verification, the accuracy rate of leaf recognition is 95.3%, and the mIoU, mPA, mPrecision, and mRecall of the leaf disease segmentation model are 90.93%, 95.21%, 95.17%, and 95.21%, respectively. This research provides an effective solution for the detection and severity assessment of plum leaf red spot disease under complex backgrounds.

Topics & Concepts

Artificial intelligenceSegmentationCropDeep learningStage (stratigraphy)Computer scienceStability (learning theory)AlgorithmPattern recognition (psychology)Machine learningAgronomyBiologyPaleontologySmart Agriculture and AIPlant Virus Research StudiesPlant Disease Management Techniques