An ensemble transfer learning-based deep convolution neural network for the detection and classification of diseased cotton leaves and plants

Agriculture is important for the economy of any country, and India is considered to be an agricultural country. One of the primary goals of agriculture is to produce disease-free crops. Since ancient times, farmers and other planting specialists have had to contend with a variety of problems and cur...

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Veröffentlicht in:	Multimedia tools and applications 2024, Vol.83 (36), p.83991-84024
Hauptverfasser:	Rai, Chitranjan Kumar, Pahuja, Roop
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Sprache:	eng
Schlagworte:	Agriculture Artificial neural networks Computer Communication Networks Computer Science Cotton Crops Data Structures and Information Theory Datasets Deep learning Image classification Machine learning Medical imaging Multimedia Information Systems Neural networks Performance enhancement Performance evaluation Sensitivity analysis Special Purpose and Application-Based Systems
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creator	Rai, Chitranjan Kumar Pahuja, Roop
description	Agriculture is important for the economy of any country, and India is considered to be an agricultural country. One of the primary goals of agriculture is to produce disease-free crops. Since ancient times, farmers and other planting specialists have had to contend with a variety of problems and current agricultural constraints, such as widespread cotton diseases. There is a great need for a rapid, efficient, economical, and reliable approach to diagnosing cotton infection in the agri-informatics area, as severe cotton disease may result in the loss of grain crops. This paper presents an advanced method that automates the detection and classification of diseased cotton leaves and plants through deep learning techniques applied to images. To address the challenge of supervised image classification, we employ a bagging ensemble technique consisting of five transfer learning models: InceptionV3, InceptionResNetV2, VGG16, MobileNet, and Xception. This ensemble approach was adopted to significantly improve the performance of each individual mode. The ETL-NET framework we introduced was thoroughly evaluated using two publicly accessible datasets. Specifically, it achieved an impressive accuracy rate of 99.48% and a sensitivity rate of 99% when applied to binary datasets. Additionally, on the multi-class dataset, the framework achieved an accuracy rate of 98.52% and a sensitivity rate of 99%. Our method outperformed the state-of-the-art techniques and displayed comparatively better results. Remarkably, our approach demonstrated even higher performance than widely used ensemble techniques, generally considered benchmarks in the field.
doi_str_mv	10.1007/s11042-024-18963-w
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subjects	Agriculture Artificial neural networks Computer Communication Networks Computer Science Cotton Crops Data Structures and Information Theory Datasets Deep learning Image classification Machine learning Medical imaging Multimedia Information Systems Neural networks Performance enhancement Performance evaluation Sensitivity analysis Special Purpose and Application-Based Systems
title	An ensemble transfer learning-based deep convolution neural network for the detection and classification of diseased cotton leaves and plants
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