基于灰狼优化算法的棉花病害检测深度学习模型

Burak Gülmez
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引用次数: 0

摘要

植物是生态系统的重要组成部分。植物也被人类用于各种目的。棉花是这些重要的植物之一,对人类非常重要。棉花生产是世界上许多国家和农民最重要的收入来源之一。棉花会像其他植物和生物一样感染疾病。检测这些疾病至关重要。本研究建立了棉花叶片病害检测模型。该模型通过照片判断棉花是健康的还是患病的。它是一个深度卷积神经网络模型。在建立模型时,要注意确保它是一个特定于问题的模型。采用灰狼优化算法保证模型结构的最优性。所以,这个算法会找到最有效的架构。所提出的模型已经与文献中经常使用的ResNet50、VGG19和InceptionV3模型进行了比较。根据得到的结果,该模型的精度值为1.0。其他模型的准确率分别为0.726、0.934和0.943。所提出的模型比其他模型更成功。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel deep learning model with the Grey Wolf Optimization algorithm for cotton disease detection
 Plants are a big part of the ecosystem. Plants are also used by humans for various purposes. Cotton is one of these important plants and is very critical for humans. Cotton production is one of the most important sources of income for many countries and farmers in the world. Cotton can get diseases like other plants and living things. Detecting these diseases is critical. In this study, a model is developed for disease detection from leaves of cotton. This model determines whether the cotton is healthy or diseased through the photograph. It is a deep convolutional neural network model. While establishing the model, care is taken to ensure that it is a problem-specific model. The grey wolf optimization algorithm is used to ensure that the model architecture is optimal. So, this algorithm will find the most efficient architecture. The proposed model has been compared with the ResNet50, VGG19, and InceptionV3 models that are frequently used in the literature. According to the results obtained, the proposed model has an accuracy value of 1.0. Other models had accuracy values of 0.726, 0.934, and 0.943, respectively. The proposed model is more successful than other models. 
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