Advancing Early Blight Detection in Potato Leaves Through ZeroShot Learning.

IF 2.7 Q3 IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY

Journal of Imaging Pub Date : 2025-07-31 DOI:10.3390/jimaging11080256

Muhammad Shoaib Farooq, Ayesha Kamran, Syed Atir Raza, Muhammad Farooq Wasiq, Bilal Hassan, Nitsa J Herzog

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Abstract

Potatoes are one of the world's most widely cultivated crops, but their yield is coming under mounting pressure from early blight, a fungal disease caused by Alternaria solani. Early detection and accurate identification are key to effective disease management and yield protection. This paper introduces a novel deep learning framework called ZeroShot CNN, which integrates convolutional neural networks (CNNs) and ZeroShot Learning (ZSL) for the efficient classification of seen and unseen disease classes. The model utilizes convolutional layers for feature extraction and employs semantic embedding techniques to identify previously untrained classes. Implemented on the Kaggle potato disease dataset, ZeroShot CNN achieved 98.50% accuracy for seen categories and 99.91% accuracy for unseen categories, outperforming conventional methods. The hybrid approach demonstrated superior generalization, providing a scalable, real-time solution for detecting agricultural diseases. The success of this solution validates the potential in harnessing deep learning and ZeroShot inference to transform plant pathology and crop protection practices.

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利用ZeroShot学习技术推进马铃薯叶枯病早期检测

马铃薯是世界上种植最广泛的作物之一，但其产量正受到早期枯萎病的压力，这是一种由番茄赤霉引起的真菌疾病。早期发现和准确识别是有效管理病害和保护产量的关键。本文介绍了一种名为ZeroShot CNN的新型深度学习框架，该框架集成了卷积神经网络（CNN）和ZeroShot学习（ZSL），用于有效分类可见和未见疾病类别。该模型利用卷积层进行特征提取，并采用语义嵌入技术识别以前未训练过的类。在Kaggle马铃薯病害数据集上实现的ZeroShot CNN对可见类别的准确率达到98.50%，对未见类别的准确率达到99.91%，优于传统方法。混合方法显示了优越的通用性，为检测农业病害提供了可扩展的实时解决方案。该解决方案的成功验证了利用深度学习和ZeroShot推理来改变植物病理学和作物保护实践的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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