An Approach Towards Identifying Bangladeshi Leaf Diseases through Transfer Learning and XAI

TL;DR

This study develops a transfer learning-based deep learning approach combined with explainable AI techniques to accurately identify 21 leaf diseases in Bangladeshi plants, aiding farmers in disease management.

Contribution

It introduces a novel application of transfer learning and XAI for plant disease detection in Bangladesh, achieving high accuracy and transparency.

Findings

VGG19 and Xception models achieved over 98.6% accuracy.

XAI techniques effectively highlight disease-affected regions.

The approach enhances transparency and decision-making for farmers.

Abstract

Leaf diseases are harmful conditions that affect the health, appearance and productivity of plants, leading to significant plant loss and negatively impacting farmers' livelihoods. These diseases cause visible symptoms such as lesions, color changes, and texture variations, making it difficult for farmers to manage plant health, especially in large or remote farms where expert knowledge is limited. The main motivation of this study is to provide an efficient and accessible solution for identifying plant leaf diseases in Bangladesh, where agriculture plays a critical role in food security. The objective of our research is to classify 21 distinct leaf diseases across six plants using deep learning models, improving disease detection accuracy while reducing the need for expert involvement. Deep Learning (DL) techniques, including CNN and Transfer Learning (TL) models like VGG16, VGG19, MobileNetV2, InceptionV3, ResNet50V2 and Xception are used. VGG19 and Xception achieve the highest accuracies, with 98.90% and 98.66% respectively. Additionally, Explainable AI (XAI) techniques such as GradCAM, GradCAM++, LayerCAM, ScoreCAM and FasterScoreCAM are used to enhance transparency by highlighting the regions of the models focused on during disease classification. This transparency ensures that farmers can understand the model's predictions and take necessary action. This approach not only improves disease management but also supports farmers in making informed decisions, leading to better plant protection and increased agricultural productivity.