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A novel plant type, leaf disease and severity identification framework using CNN and transformer with multi-label method
A novel plant type, leaf disease and severity identification framework using CNN and transformer with multi-label method
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A novel plant type, leaf disease and severity identification framework using CNN and transformer with multi-label method
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A novel plant type, leaf disease and severity identification framework using CNN and transformer with multi-label method
A novel plant type, leaf disease and severity identification framework using CNN and transformer with multi-label method

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A novel plant type, leaf disease and severity identification framework using CNN and transformer with multi-label method
A novel plant type, leaf disease and severity identification framework using CNN and transformer with multi-label method
Journal Article

A novel plant type, leaf disease and severity identification framework using CNN and transformer with multi-label method

2024
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Overview
The growth of plants is threatened by numerous diseases. Accurate and timely identification of these diseases is crucial to prevent disease spreading. Many deep learning-based methods have been proposed for identifying leaf diseases. However, these methods often combine plant, leaf disease, and severity into one category or treat them separately, resulting in a large number of categories or complex network structures. Given this, this paper proposes a novel leaf disease identification network (LDI-NET) using a multi-label method. It is quite special because it can identify plant type, leaf disease and severity simultaneously using a single straightforward branch model without increasing the number of categories and avoiding extra branches. It consists of three modules, i.e., a feature tokenizer module, a token encoder module and a multi-label decoder module. The LDI-NET works as follows: Firstly, the feature tokenizer module is designed to enhance the capability of extracting local and long-range global contextual features by leveraging the strengths of convolutional neural networks and transformers. Secondly, the token encoder module is utilized to obtain context-rich tokens that can establish relationships among the plant, leaf disease and severity. Thirdly, the multi-label decoder module combined with a residual structure is utilized to fuse shallow and deep contextual features for better utilization of different-level features. This allows the identification of plant type, leaf disease, and severity simultaneously. Experiments show that the proposed LDI-NET outperforms the prevalent methods using the publicly available AI challenger 2018 dataset.