LightFusionNet: A Compact and Efficient Tri-Branch Network for Phytopathogen Detection in Horticultural Crops

Cardamom and coffee are valuable horticultural crops of economic importance but are highly susceptible to various diseases that can cause significant damage to yield and quality. Early diagnosis of these diseases by optimized architecture is essential for crop health management and adopting sustaina...

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Published inInternational Conference on Inventive Computation Technologies (Online) pp. 508 - 515
Main Authors Kaleeswari, G, Sundarrajan, R
Format Conference Proceeding
LanguageEnglish
Published IEEE 23.04.2025
Subjects
Accuracy
Computational efficiency
Computational modeling
Computational overhead
Crops
Diseases
Early Exit
Explainable AI
Feature extraction
Feature Fusion
Horticultural Crops
Neural networks
Sustainable Agriculture
Training
Transformers
Online AccessGet full text
ISSN2767-7788
DOI10.1109/ICICT64420.2025.11005006

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Abstract Cardamom and coffee are valuable horticultural crops of economic importance but are highly susceptible to various diseases that can cause significant damage to yield and quality. Early diagnosis of these diseases by optimized architecture is essential for crop health management and adopting sustainable agriculture. In this work, an optimized deep learning architecture for cardamom and coffee plant pathogen diagnosis is introduced. The proposed methodology is the Tri-Branch Feature Fusion Network (TFFNet), wherein different feature extraction methods are combined using MobileNetV2, InceptionV3, and Vision Transformer (ViT). The proposed TFFNet architecture enhances feature discovery together with selective attention through Swish along with Entmax(1.5) networks to achieve enhanced classification of Healthy and Diseased Cardamom and Coffee crops. A Lion Optimizer is used to optimize the hybrid structure of MobileNetV2, InceptionV3, and ViT by dynamically varying learning rates from gradient history, optimizing performance. Dynamic neural networks with early exit are also utilized to balance accuracy with low computational overhead to improve the efficacy. The model performs with good accuracy with a training accuracy of 98.23%, validation accuracy of 96.14%, F1 score of 0.961, precision of 0.960, recall of 0.963, training loss of 0.009, and validation loss of 0.010. These findings reflect the potential of the model for effective disease diagnosis. Future directions will involve studying the influence of disease on resistance mechanisms, and integrating Explainable AI (XAI) approaches for increased transparency and trust in prediction.
AbstractList Cardamom and coffee are valuable horticultural crops of economic importance but are highly susceptible to various diseases that can cause significant damage to yield and quality. Early diagnosis of these diseases by optimized architecture is essential for crop health management and adopting sustainable agriculture. In this work, an optimized deep learning architecture for cardamom and coffee plant pathogen diagnosis is introduced. The proposed methodology is the Tri-Branch Feature Fusion Network (TFFNet), wherein different feature extraction methods are combined using MobileNetV2, InceptionV3, and Vision Transformer (ViT). The proposed TFFNet architecture enhances feature discovery together with selective attention through Swish along with Entmax(1.5) networks to achieve enhanced classification of Healthy and Diseased Cardamom and Coffee crops. A Lion Optimizer is used to optimize the hybrid structure of MobileNetV2, InceptionV3, and ViT by dynamically varying learning rates from gradient history, optimizing performance. Dynamic neural networks with early exit are also utilized to balance accuracy with low computational overhead to improve the efficacy. The model performs with good accuracy with a training accuracy of 98.23%, validation accuracy of 96.14%, F1 score of 0.961, precision of 0.960, recall of 0.963, training loss of 0.009, and validation loss of 0.010. These findings reflect the potential of the model for effective disease diagnosis. Future directions will involve studying the influence of disease on resistance mechanisms, and integrating Explainable AI (XAI) approaches for increased transparency and trust in prediction.
Author Kaleeswari, G
Sundarrajan, R
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  organization: Kalasalingam Academy of Research and Education,Department of Information Technology,Virudhunagar,Tamilnadu
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Snippet Cardamom and coffee are valuable horticultural crops of economic importance but are highly susceptible to various diseases that can cause significant damage to...
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StartPage 508
SubjectTerms Accuracy
Computational efficiency
Computational modeling
Computational overhead
Crops
Diseases
Early Exit
Explainable AI
Feature extraction
Feature Fusion
Horticultural Crops
Neural networks
Sustainable Agriculture
Training
Transformers
Title LightFusionNet: A Compact and Efficient Tri-Branch Network for Phytopathogen Detection in Horticultural Crops
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