AgriEngineering (May 2021)

Automatic and Reliable Leaf Disease Detection Using Deep Learning Techniques

  • Muhammad E. H. Chowdhury,
  • Tawsifur Rahman,
  • Amith Khandakar,
  • Mohamed Arselene Ayari,
  • Aftab Ullah Khan,
  • Muhammad Salman Khan,
  • Nasser Al-Emadi,
  • Mamun Bin Ibne Reaz,
  • Mohammad Tariqul Islam,
  • Sawal Hamid Md Ali

DOI
https://doi.org/10.3390/agriengineering3020020
Journal volume & issue
Vol. 3, no. 2
pp. 294 – 312

Abstract

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Plants are a major source of food for the world population. Plant diseases contribute to production loss, which can be tackled with continuous monitoring. Manual plant disease monitoring is both laborious and error-prone. Early detection of plant diseases using computer vision and artificial intelligence (AI) can help to reduce the adverse effects of diseases and also overcome the shortcomings of continuous human monitoring. In this work, we propose the use of a deep learning architecture based on a recent convolutional neural network called EfficientNet on 18,161 plain and segmented tomato leaf images to classify tomato diseases. The performance of two segmentation models i.e., U-net and Modified U-net, for the segmentation of leaves is reported. The comparative performance of the models for binary classification (healthy and unhealthy leaves), six-class classification (healthy and various groups of diseased leaves), and ten-class classification (healthy and various types of unhealthy leaves) are also reported. The modified U-net segmentation model showed accuracy, IoU, and Dice score of 98.66%, 98.5%, and 98.73%, respectively, for the segmentation of leaf images. EfficientNet-B7 showed superior performance for the binary classification and six-class classification using segmented images with an accuracy of 99.95% and 99.12%, respectively. Finally, EfficientNet-B4 achieved an accuracy of 99.89% for ten-class classification using segmented images. It can be concluded that all the architectures performed better in classifying the diseases when trained with deeper networks on segmented images. The performance of each of the experimental studies reported in this work outperforms the existing literature.

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