relation: http://repositorio.unincol.edu.co/id/eprint/15983/
canonical: http://repositorio.unincol.edu.co/id/eprint/15983/
title: Novel Transfer Learning Approach for Detecting Infected and Healthy Maize Crop Using Leaf Images
creator: Tanveer, Muhammad Usama
creator: Munir, Kashif
creator: Raza, Ali
creator: Abualigah, Laith
creator: Garay, Helena
creator: Prado González, Luis Eduardo
creator: Ashraf, Imran
subject: Ingeniería
subject: Alimentación
description: Maize is a staple crop worldwide, essential for food security, livestock feed, and industrial uses. Its health directly impacts agricultural productivity and economic stability. Effective detection of maize crop health is crucial for preventing disease spread and ensuring high yields. This study presents VG-GNBNet, an innovative transfer learning model that accurately detects healthy and infected maize crops through a two-step feature extraction process. The proposed model begins by leveraging the visual geometry group (VGG-16) network to extract initial pixel-based spatial features from the crop images. These features are then further refined using the Gaussian Naive Bayes (GNB) model and feature decomposition-based matrix factorization mechanism, which generates more informative features for classification purposes. This study incorporates machine learning models to ensure a comprehensive evaluation. By comparing VG-GNBNet's performance against these models, we validate its robustness and accuracy. Integrating deep learning and machine learning techniques allows VG-GNBNet to capitalize on the strengths of both approaches, leading to superior performance. Extensive experiments demonstrate that the proposed VG-GNBNet+GNB model significantly outperforms other models, achieving an impressive accuracy score of 99.85%. This high accuracy highlights the model's potential for practical application in the agricultural sector, where the precise detection of crop health is crucial for effective disease management and yield optimization.
date: 2025-01
type: Artículo
type: PeerReviewed
format: text
language: en
rights: cc_by_4
identifier: http://repositorio.unincol.edu.co/id/eprint/15983/1/Food%20Science%20%20%20Nutrition%20-%202025%20-%20Tanveer%20-%20Novel%20Transfer%20Learning%20Approach%20for%20Detecting%20Infected%20and%20Healthy%20Maize%20Crop.pdf
identifier:   Artículo Materias > Ingeniería <http://repositorio.unincol.edu.co/view/subjects/uneat=5Feng.html> Materias > Alimentación <http://repositorio.unincol.edu.co/view/subjects/uneat=5Fsn.html> Universidad Europea del Atlántico > Investigación > Producción Científica <http://repositorio.unincol.edu.co/view/divisions/uneatlantico=5Fproduccion=5Fcientifica.html> Fundación Universitaria Internacional de Colombia > Investigación > Artículos y libros <http://repositorio.unincol.edu.co/view/divisions/unincol=5Fproduccion=5Fcientifica.html> Universidad Internacional Iberoamericana México > Investigación > Producción Científica <http://repositorio.unincol.edu.co/view/divisions/uninimx=5Fproduccion=5Fcientifica.html> Universidad Internacional do Cuanza > Investigación > Producción Científica <http://repositorio.unincol.edu.co/view/divisions/unic=5Fproduccion=5Fcientifica.html> Universidad de La Romana > Investigación > Producción Científica <http://repositorio.unincol.edu.co/view/divisions/uniromana=5Fproduccion=5Fcientifica.html> Abierto Inglés Maize is a staple crop worldwide, essential for food security, livestock feed, and industrial uses. Its health directly impacts agricultural productivity and economic stability. Effective detection of maize crop health is crucial for preventing disease spread and ensuring high yields. This study presents VG-GNBNet, an innovative transfer learning model that accurately detects healthy and infected maize crops through a two-step feature extraction process. The proposed model begins by leveraging the visual geometry group (VGG-16) network to extract initial pixel-based spatial features from the crop images. These features are then further refined using the Gaussian Naive Bayes (GNB) model and feature decomposition-based matrix factorization mechanism, which generates more informative features for classification purposes. This study incorporates machine learning models to ensure a comprehensive evaluation. By comparing VG-GNBNet's performance against these models, we validate its robustness and accuracy. Integrating deep learning and machine learning techniques allows VG-GNBNet to capitalize on the strengths of both approaches, leading to superior performance. Extensive experiments demonstrate that the proposed VG-GNBNet+GNB model significantly outperforms other models, achieving an impressive accuracy score of 99.85%. This high accuracy highlights the model's potential for practical application in the agricultural sector, where the precise detection of crop health is crucial for effective disease management and yield optimization. metadata Tanveer, Muhammad Usama; Munir, Kashif; Raza, Ali; Abualigah, Laith; Garay, Helena; Prado González, Luis Eduardo y Ashraf, Imran mail SIN ESPECIFICAR, SIN ESPECIFICAR, SIN ESPECIFICAR, SIN ESPECIFICAR, helena.garay@uneatlantico.es, uis.prado@uneatlantico.es, SIN ESPECIFICAR     <http://repositorio.unincol.edu.co/id/eprint/15983/1/Food%20Science%20%20%20Nutrition%20-%202025%20-%20Tanveer%20-%20Novel%20Transfer%20Learning%20Approach%20for%20Detecting%20Infected%20and%20Healthy%20Maize%20Crop.pdf>     (2025) Novel Transfer Learning Approach for Detecting Infected and Healthy Maize Crop Using Leaf Images.  Food Science & Nutrition, 13 (1).   ISSN 2048-7177     
relation: http://doi.org/10.1002/fsn3.4655
relation: doi:10.1002/fsn3.4655
language: en