Department of Computer Science and Engineering, Kongu Engineering College, Perundurai, India.
Department of Computer Science and Engineering, Institute of Aeronautical Engineering, Hyderabad, India.
Big Data. 2022 Jun;10(3):215-229. doi: 10.1089/big.2021.0218. Epub 2021 Dec 10.
One of the world's most widely grown crops is corn. Crop loss due to diseases has a major economic effect, putting the food supply in jeopardy. In many parts of the world, lack of infrastructure still slows disease diagnosis. In this context, effective detection of corn leaf diseases is necessary to limit any unfavorable impacts on the yield. This research has been carried out on the corn leaf images, having three classes of diseases and one healthy class, collected from web resources by using the densely connected convolutional neural networks (CNNs). In this work, VGG16, a variant of CNN, is investigated to classify the infected and healthy leaves. We conduct four different sets of experiments using pretrained VGG16 as a classifier, feature extractor, and fine-tuner. To improve our results, Bayesian optimization is used to choose optimal values for hyperparameters, and transfer learning is explored to fine-tune and reduce the training time of the proposed models. In comparison with earlier proven methods, transfer learning on VGG16 produced better results by leveraging a test accuracy of more than 97% while requiring less training time.
玉米是世界上种植最广泛的作物之一。由于疾病导致的作物损失会产生重大的经济影响,使粮食供应面临危险。在世界许多地区,基础设施的缺乏仍然阻碍了疾病的诊断。在这种情况下,有效地检测玉米叶片病害对于限制任何对产量的不利影响是必要的。本研究使用密集连接卷积神经网络(CNNs)从网络资源中收集了三类病害和一类健康类的玉米叶片图像。在这项工作中,研究了 VGG16,一种 CNN 的变体,用于对感染和健康叶片进行分类。我们使用预训练的 VGG16 作为分类器、特征提取器和微调器进行了四组不同的实验。为了提高我们的结果,使用贝叶斯优化来选择超参数的最佳值,并探索迁移学习来微调和减少所提出模型的训练时间。与早期经过验证的方法相比,通过利用超过 97%的测试准确性,在迁移学习 VGG16 上产生了更好的结果,同时需要更少的训练时间。
