Improving computer vision for plant pathology through advanced training techniques

• Published in: Applications in plant sciences Vol. 13; no. 3; pp. e70010 - n/a
• Main Authors: Sykes, Jamie R., Denby, Katherine J., Franks, Daniel W.
• Format: Journal Article
• Language: English
• Published: United States John Wiley & Sons, Inc 01.05.2025; John Wiley and Sons Inc; Wiley
• Subjects: Accuracy; Application; Classification; Cocoa; Computer vision; Data collection; Datasets; Deep learning; disease detection; machine learning; Mathematical functions; Neural networks; Plant pathology; semi‐supervised learning; United States > US; California; disease detection; machine learning; computer vision; semi‐supervised learning
• ISSN: 2168-0450; 2168-0450
• DOI: 10.1002/aps3.70010

Premise This study investigates advanced training techniques to improve the performance of convolutional neural networks for disease detection in cocoa, Theobroma cacao. Methods Despite recent stagnation in accuracy improvements in computer vision for image classification, our research demonstrates significant advancements in performance through semi‐supervised learning, specialised loss functions, and the inclusion of a non‐cocoa class. Results Semi‐supervised learning reduced overfitting and enhanced generalisability, particularly for subtle symptoms. The non‐cocoa class exposed models to a broad range of relevant features, significantly improving model robustness and performance in difficult cases. Grad‐CAM for qualitative assessment provided valuable insights into model behaviour, highlighting cases of overfitting missed by summary statistics. We also describe dynamic focal loss, a novel loss function that uses an empirical measure of difficulty to weight each image. Our results suggest that while PhytNet shows promise in terms of computational efficiency and superior handling of difficult images, ResNet18 with semi‐supervised learning and dynamic focal loss emerged as the strongest contender for real‐world deployment. Discussion This research underscores the potential of semi‐supervised learning and advanced loss functions in enhancing the applicability of deep learning models in agricultural disease management. It also presents a new high‐quality benchmark dataset of 7220 images of diseased and healthy cocoa trees, offering a much greater and more realistic challenge than the Plan Village dataset.