基于深度卷积神经网络的高效叶片病害检测技术的设计与开发

2020 IEEE International Conference on Distributed Computing, VLSI, Electrical Circuits and Robotics (DISCOVER) Pub Date : 2020-10-30 DOI:10.1109/DISCOVER50404.2020.9278067

Meeradevi, Ranjana V, Monica R. Mundada, Soumya P. Sawkar, Rithika S Bellad, P. S. Keerthi

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引用次数: 4

摘要

随着农作物病害的蔓延，有必要预防和控制其污染，以提高农民的生产力和产量。植物病害对植物和动物产生不利影响，并影响市场准入和农业生产。由于番茄是世界上最重要的蔬菜植物之一，因此需要对番茄叶片病害进行早期检测，因此提出了利用番茄叶片图像进行病害分类的工作。番茄病害主要有细菌性叶斑病、黄曲病、晚疫病、番茄花叶病和隔叶斑病。数据集取自植物村项目。本文的思路是选取不同叶片病害的番茄叶片图像数据集，在最佳模型卷积神经网络(CNN)上进行训练，然后利用CNN获得的权值对新的番茄叶片图像进行测试。采用VGG16和注意力模型的混合方法，在提出的模型中获得最佳的权重，以进行测试和验证。采用混合方法，模型的准确率达到95.90%。通过性能分析，找出精度较高的最佳模型，克服过拟合问题。

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Design and Development of Efficient Techniques for Leaf Disease Detection using Deep Convolutional Neural Networks

With the increase in the spread of crop diseases, there is a need to prevent and control its contamination so as to increase productivity and yield for the farmers. Plant Diseases have a detrimental effect on plants and animals and impact on market access and agricultural production. The proposed work use tomato leaf images for disease classification as tomato is one of the most important vegetable plants in the world and hence early detection of tomato leaf disease is required. Diseases of tomato plant include Bacterial leaf Spot, Yellow Curved, Late Blight, Tomato Mosaic and Septorial Leaf Spot. The dataset is taken online from plant village project. The idea of this paper is to take a dataset of the tomato leaf images with different leaf diseases and train it on a best model Convolutional Neural Network (CNN) and then use the obtained weights from the CNN for testing new tomato leaf images. The hybrid approach VGG16 with attention model is taken to achieve the best weights possible for testing and validation in the proposed model. The model showed the accuracy of 95.90 percent with hybrid approach. Performance analysis is done to identify the best model with good accuracy and also overcome the problem of overfitting.

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2020 IEEE International Conference on Distributed Computing, VLSI, Electrical Circuits and Robotics (DISCOVER)

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