Implementation of Convolutional Neural Network (CNN) for Image Classification of Leaf Disease In Mango Plants Using Deep Learning Approach

Puji Dwi Rinanda, Delvi Nur Aini, Tata Ayunita Pertiwi, Suryani Suryani, A. J. Prakash
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Abstract

Plant diseases pose a serious threat to a country's economy and food security. One way to identify diseases in plants is through the visible features on their leaves. Farmers need to conduct an active examination of the condition of the leaves of plants to eradicate this disease. In this case, automatic recognition and classification of diseases of leaf crops is required in order to obtain an accurate identification. Digital image processing technology can be used to solve this problem. One effective approach is the Convolutional Neural Network (CNN). The trial image used a dataset consisting of 4000 images of mango leaf disease, namely Anthracnose, Bacterial Canker, Cutting Weevil, Die Back, Gall Midge, Powdery Mildew, and Sooty Mould. This study aims to compare the accuracy of CNN, VGG16 and InceptionV3.  Architectural modeling uses these drawings to train and test models in recognizing and classifying mango leaf diseases. The results of modeling trials in the three scenarios were most optimally obtained by VGG16 with an accuracy of 96.87%, then InceptionV3 with an acquisition of 96.50% and CNN by 81%.
利用深度学习方法实现卷积神经网络 (CNN) 对芒果植物叶病的图像分类
植物病害对国家经济和粮食安全构成严重威胁。识别植物病害的方法之一是通过其叶片上的明显特征。农民需要积极检查植物叶片的状况,以根除这种病害。在这种情况下,需要对叶类作物的病害进行自动识别和分类,以获得准确的识别结果。数字图像处理技术可用于解决这一问题。其中一种有效的方法是卷积神经网络(CNN)。试验图像使用了由 4000 幅芒果叶病图像组成的数据集,即炭疽病、细菌性腐烂病、切梢象鼻虫、倒伏、瘿蚊、白粉病和煤烟霉。本研究旨在比较 CNN、VGG16 和 InceptionV3 的准确性。 建筑建模使用这些图纸来训练和测试识别芒果叶病并对其进行分类的模型。在三种情况下的建模试验结果中,VGG16 的准确率最高,为 96.87%,然后是 InceptionV3,准确率为 96.50%,CNN 的准确率为 81%。
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