利用卷积神经网络和迁移学习对番茄叶片病害进行多类分类

IF 1.1 4区 农林科学 Q3 PLANT SCIENCES
K. M. Vivek Anandh, Arrun Sivasubramanian, V. Sowmya, Vinayakumar Ravi
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引用次数: 0

摘要

番茄(生物名称:Solanum lycopersicum)是世界上重要的粮食作物。然而,由于气候变化和各种病害,番茄的产量大幅下降,从经济角度来看是有害的。番茄叶片会感染各种病害,如细菌性叶斑病、败酱病、早疫病和马赛克病毒等。如果不加注意,这些番茄叶部病害(TLDs)会蔓延到其他叶片和果实。因此,尽早发现这些病害至关重要。叶片检查是识别和控制病害传播的标准技术之一。大数据已经取得了长足的进步,借助计算机视觉和深度学习技术分析数据,我们可以识别病叶,帮助控制病害的进一步蔓延。本研究使用了三种轻量级中代卷积神经网络(CNNs)分类网络架构,这些网络架构有望部署到物联网设备中,帮助农业界解决 TLD 问题。研究还显示了模型在有几何数据增强和无几何数据增强的情况下的功效。该模型在包含更多样本的 Kaggle 数据集上进行了训练,以建立一个可感知更广泛数据分布的稳健模型,并在植物村数据集上进行了验证,以测试其有效性。结果表明,在使用几何增强样本图像的 MobileNet 架构中使用 ImageNet 权重进行迁移学习,训练和测试准确率分别为 99.71% 和 99.49%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multiclass Classification of Tomato Leaf Diseases Using Convolutional Neural Networks and Transfer Learning

Tomato (biological name: Solanum lycopersicum) is an important food crop worldwide. However, due to climatic changes and various diseases, the yield of tomatoes decreased significantly, being detrimental from an economic point of view. Various diseases infect the tomato leaves, such as bacterial and septorial leaf spots, early blight and mosaic virus, to name a few. If uncared, these tomato leaf diseases (TLDs) can spread to other leaves and the fruit. Hence it is vital to detect these diseases as early as possible. Leaf examination is one of the standard techniques to identify and control the spread of diseases. Big Data has made substantial progress, and with the help of computer vision and deep learning techniques to analyse data, we can identify the diseased leaves and help control the disease's spread further. This study used three lightweight midgeneration convolutional neural networks (CNNs) classification network architectures which has the scope to be deployed in IoT devices to help the agricultural community tackle TLDs. It also shows the efficacy of the models with and without geometric data augmentation. The model was trained on a Kaggle data set containing a more significant number of samples to make a robust model aware of broader data distribution and validated on the Plant Village dataset to test its efficacy. The results show that applying transfer learning using ImageNet weights to the MobileNet Architecture using geometrically augmented sample images yields a train and test accuracy of 99.71% and 99.49%, respectively.

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来源期刊
Journal of Phytopathology
Journal of Phytopathology 生物-植物科学
CiteScore
2.90
自引率
0.00%
发文量
88
审稿时长
4-8 weeks
期刊介绍: Journal of Phytopathology publishes original and review articles on all scientific aspects of applied phytopathology in agricultural and horticultural crops. Preference is given to contributions improving our understanding of the biotic and abiotic determinants of plant diseases, including epidemics and damage potential, as a basis for innovative disease management, modelling and forecasting. This includes practical aspects and the development of methods for disease diagnosis as well as infection bioassays. Studies at the population, organism, physiological, biochemical and molecular genetic level are welcome. The journal scope comprises the pathology and epidemiology of plant diseases caused by microbial pathogens, viruses and nematodes. Accepted papers should advance our conceptual knowledge of plant diseases, rather than presenting descriptive or screening data unrelated to phytopathological mechanisms or functions. Results from unrepeated experimental conditions or data with no or inappropriate statistical processing will not be considered. Authors are encouraged to look at past issues to ensure adherence to the standards of the journal.
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