JutePestDetect: An intelligent approach for jute pest identification using fine-tuned transfer learning

In certain Asian countries, Jute is one of the primary sources of income and Gross Domestic Product (GDP) for the agricultural sector. Like many other crops, Jute is prone to pest infestations, and its identification is typically made visually in countries like Bangladesh, India, Myanmar, and China....

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Veröffentlicht in:Smart agricultural technology 2023-10, Vol.5, p.100279, Article 100279
Hauptverfasser: Talukder, Md. Simul Hasan, Chowdhury, Mohammad Raziuddin, Sourav, Md Sakib Ullah, Rakin, Abdullah Al, Shuvo, Shabbir Ahmed, Sulaiman, Rejwan Bin, Nipun, Musarrat Saberin, Islam, Muntarin, Islam, Mst Rumpa, Islam, Md Aminul, Haque, Zubaer
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Sprache:eng
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Zusammenfassung:In certain Asian countries, Jute is one of the primary sources of income and Gross Domestic Product (GDP) for the agricultural sector. Like many other crops, Jute is prone to pest infestations, and its identification is typically made visually in countries like Bangladesh, India, Myanmar, and China. In addition, this method is time-consuming, challenging, and somewhat imprecise, which poses a substantial financial risk. To address this issue, the study proposes a high-performing and resilient transfer learning (TL) based JutePestDetect model to identify jute pests at the early stage. Firstly, we prepared jute pest dataset containing 17 classes and around 380 photos per pest class, which were evaluated after manual and automatic pre-processing and cleaning, such as background removal and resizing. Subsequently, five prominent pre-trained models—DenseNet201, InceptionV3, MobileNetV2, VGG19, and ResNet50—were selected from a previous study to design the JutePestDetect model. Each model was revised by replacing the classification layer with a global average pooling layer and incorporating a dropout layer for regularization. To evaluate the models' performance, various metrics such as precision, recall, F1 score, ROC curve, and confusion matrix were employed. These analyses provided additional insights for determining the efficacy of the models. Among them, the customized regularized DenseNet201-based proposed JutePestDetect model outperformed the others, achieving an impressive accuracy of 99%. As a result, our proposed method and strategy offer an enhanced approach to pest identification in the case of Jute, which can significantly benefit farmers worldwide.
ISSN:2772-3755
2772-3755
DOI:10.1016/j.atech.2023.100279