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Crop pest recognition using attention-embedded lightweight network under field conditions

Crop pest recognition using attention-embedded lightweight network under field conditions Plant pests have a negative effect on crop yields. If the various insect pests are not identified and controlled properly, they can spread quickly and cause a significant decline in agricultural production. To overcome the challenges, the convolutional neural network (CNN)-based methods have shown excellent performance as it performs automatic feature extraction in image identification and classification. In this study, to enhance the learning capability for pest images with cluttered backgrounds, the MobileNet-V2 pre-trained on ImageNet was chosen as the backbone network and the attention mechanism along with a classification activation map (CAM) were incorporated in our architecture to learn the significant pest information of input images. Moreover, the optimized loss function and two-stage transfer learning were adopted in model training. This kind of progressive learning first makes the model discover the large-scale structures, and then shifts its attention to delicate details step by step, improving the identification accuracy of plant pest images. The proposed procedure achieves an average accuracy of 99.14% on the publicly available dataset, and even in heterogeneous background conditions, the average accuracy also reaches 92.79%. Experimental results prove the efficacy of the proposed procedure, and it delivers outperformance compared with other state-of-the-art methods. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Applied Entomology and Zoology Springer Journals

Crop pest recognition using attention-embedded lightweight network under field conditions

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References (48)

Publisher
Springer Journals
Copyright
Copyright © The Japanese Society of Applied Entomology and Zoology 2021
ISSN
0003-6862
eISSN
1347-605X
DOI
10.1007/s13355-021-00732-y
Publisher site
See Article on Publisher Site

Abstract

Plant pests have a negative effect on crop yields. If the various insect pests are not identified and controlled properly, they can spread quickly and cause a significant decline in agricultural production. To overcome the challenges, the convolutional neural network (CNN)-based methods have shown excellent performance as it performs automatic feature extraction in image identification and classification. In this study, to enhance the learning capability for pest images with cluttered backgrounds, the MobileNet-V2 pre-trained on ImageNet was chosen as the backbone network and the attention mechanism along with a classification activation map (CAM) were incorporated in our architecture to learn the significant pest information of input images. Moreover, the optimized loss function and two-stage transfer learning were adopted in model training. This kind of progressive learning first makes the model discover the large-scale structures, and then shifts its attention to delicate details step by step, improving the identification accuracy of plant pest images. The proposed procedure achieves an average accuracy of 99.14% on the publicly available dataset, and even in heterogeneous background conditions, the average accuracy also reaches 92.79%. Experimental results prove the efficacy of the proposed procedure, and it delivers outperformance compared with other state-of-the-art methods.

Journal

Applied Entomology and ZoologySpringer Journals

Published: Nov 1, 2021

Keywords: Crop pest recognition; Lightweight network; Classification activation map; Attention mechanism; Transfer learning

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