Tomato leaf disease recognition system using Faster R-CNN

Tomato leaf disease recognition system using Faster R-CNN

Detectron2
Faster region-based convolutional neural network
Machine learning
Object detection
Tomato leaf disease

The objective of this paper is to detect tomato leaf disease using Faster region-based convolutional neural network (R-CNN). The tomato leaf disease recognition system utilizes a dataset consisting of healthy tomato leaves and eight leaf diseases, including early blight, late blight, leaf mold, mosaic virus, septoria, spider mites, yellow leaf curl virus, and leaf miner. The dataset is obtained from various sources, such as Kaggle, Google Images, Bing Images, and Roboflow Universe. Pre-processing techniques, including collage, tile, static crop, and resize, are applied to prepare the dataset for training. Data augmentation methods, such as flipping, 90° rotation, exposure adjustment, and hue modification, are applied to enhance the model’s robustness and generalize its performance. Specifically, we implemented Faster R-CNN as part of Detectron2 using its base models and configurations. The results demonstrate that the X101-FPN base model for Faster R-CNN with the default configurations of Detectron2 is efficient and general enough to be applied to defect detection. This approach results in an average precision (AP) detection score of 87.01% for validation results.

Karel Octavianus Bachri, Bryan Santoso, Duma Kristina Yanti Hutapea, Catherine Olivia Sereati, Lanny W. Pandjaitan

Journal homepage: http://telkomnika.uad.ac.id

Aug 5, 2024

PERI IRAWAN

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