IF 0.3 Q4 COMPUTER SCIENCE, THEORY & METHODS Computer Science-AGH Pub Date : 2021-09-16 DOI:10.53070/bbd.989305
M. Göksu, Kubilay Muhammed Sünnetci, Ahmet Alkan
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引用次数: 2

摘要

--如今,人们需要方便地获得基本营养才能过上健康的生活。玉米作为基本食物之一,除了提供能够满足人类生理需求的热量外,还含有宝贵的矿物质和维生素,如维生素B6、钠、镁、锌、钾、钙、维生素A。随着世界人口和我国人口的增加,对玉米的需求与日俱增。在此,重要的是检测玉米叶片中出现的降低玉米生产效率的疾病。由于技术的发展,应该鼓励生产者利用玉米种植的技术机会。本研究旨在检测玉米叶片上的锈病、灰斑病和叶枯病。此外,还开发了两个基于EfficientNetB5网络和卷积神经网络的模型,用于使用深度学习方法检测玉米叶片中发现的疾病。为了提高已创建模型的性能指标,通过使用数据增强技术(镜像、旋转、缩放)增加了图像数量。从结果可以看出,EfficientNetB5迁移学习模型和所开发的深度学习模型的预测成功率分别为92.12%和89.88%。
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Derin öğrenme ağları kullanılarak mısır yapraklarında hastalık tespiti
— Nowadays, people need easy access to basic nutrients to live a healthy life. In addition to providing calories that can meet the physiological needs of human beings, maize, which is one of the basic foods, contains valuable minerals and vitamins such as vitamin B6, sodium, magnesium, zinc, potassium, calcium, vitamin A. As a result of the increase in the world population in the world and our country, the need for maize is increasing day by day. Herein, it is important to detect the diseases seen in maize leaves that reduce the efficiency of maize production. Thanks to the developing technologies, producers should be encouraged by using technological opportunities in maize cultivation. In the study, it is aimed to detect maize rust, gray leaf spot, and leaf blight on maize leaves. In addition, two models based on the EfficientNetB5 network and convolutional neural network have been developed to detect diseases found in maize leaves using deep learning methods. To increase the performance metrics of created models, the number of images has been increased by using data augmentation techniques (mirror, rotation, scale). From the results, it is seen that the prediction success rates obtained in the EfficientNetB5 transfer learning model and the developed deep learning model are equal to 92.12% and 89.88%, respectively.
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来源期刊
Computer Science-AGH
Computer Science-AGH COMPUTER SCIENCE, THEORY & METHODS-
CiteScore
1.40
自引率
0.00%
发文量
18
审稿时长
20 weeks
期刊最新文献
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