Indian Journal of Agricultural Research
SCOPUSWeb of Science
  • Year: 2026
  • Volume: 60
  • Issue: 6

Dual-encoder Variational Autoencoder for Detection and Classification of Plant Leaf Diseases

1Department of Electronics and Communication Engineering, Indira Gandhi Delhi Technical University for Women, Delhi-110 006, India

*Corresponding Author: Astha Sharma, Department of Electronics and Communication Engineering, Indira Gandhi Delhi Technical University for Women, Delhi-110 006, India. Email: asthasharma092@gmail.com

Abstract

Plant disease detection remains a major challenge in agriculture, with direct implications for improving crop productivity and ensuring food security. Seasonal variation significantly influences plant characteristics, making the classification of plant leaves by season-specifically summer and winter-important for optimizing disease detection and management strategies.

In this study, a plant leaf disease detection dataset was developed and categorized based on seasonal conditions. The dataset includes 47 classes representing summer crops and 16 classes for winter crops. To classify plant leaf diseases effectively, we propose a novel dual-encoder Variational Autoencoder (VAE) model that integrates ResNet and VGGNet as parallel encoders. These encoders extract complementary feature maps from the seasonal datasets, which are then concatenated to improve classification accuracy.

Experimental evaluation demonstrates the robustness and accuracy of the proposed approach. The dual-encoder VAE achieved a classification accuracy of 98.86% on the summer dataset and 97.53% on the winter dataset, highlighting the model’s ability to generalize effectively across seasonal variations in plant leaf disease detection.

Keywords

Computer vision, Leaf disease detection, Summer, Variational autoencoder, Winter