Remote Monitoring of Coffee Leaf Miner Infestation Using Machine Learning
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Published:2024-06-13
Issue:2
Volume:6
Page:1697-1711
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ISSN:2624-7402
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Container-title:AgriEngineering
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language:en
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Short-container-title:AgriEngineering
Author:
Vilela Emerson Ferreira1, Castro Gabriel Dumbá Monteiro de2ORCID, Marin Diego Bedin1, Santana Charles Cardoso3ORCID, Leite Daniel Henrique2, Matos Christiano de Sousa Machado1, Silva Cileimar Aparecida da1, Lopes Iza Paula de Carvalho1, Queiroz Daniel Marçal de2ORCID, Silva Rogério Antonio1, Rossi Giuseppe4ORCID, Bambi Gianluca4ORCID, Conti Leonardo4ORCID, Venzon Madelaine1ORCID
Affiliation:
1. Minas Gerais Agricultural Research Agency (EPAMIG-Sudeste), Viçosa 36570-000, MG, Brazil 2. Department of Agricultural Engineering, Federal University of Viçosa, Viçosa 36571-900, MG, Brazil 3. Minas Gerais Agricultural Research Agency (EPAMIG), Pitangui Institute of Agricultural Technology (ITAP), Pitangui 35650-000, MG, Brazil 4. Department of Agriculture, Food, Environment and Forestry, University of Florence, 50121 Florence, Italy
Abstract
The coffee leaf miner (Leucoptera coffeella) is a key pest in coffee-producing regions in Brazil. The objective of this work was to evaluate the potential of machine learning algorithms to identify coffee leaf miner infestation by considering the assessment period and Sentinel-2 satellite images generated on the Google Earth Engine platform. Coffee leaf miner infestation in the field was measured monthly from 2019 to 2023. Images were selected from the Sentinel-2 satellite to determine 13 vegetative indices. The selection of images and calculations of the vegetation indices were carried out using the Google Earth Engine platform. A database was generated with information on coffee leaf miner infestation, vegetation indices, and assessment times. The database was separated into training data and testing data. Nine machine learning algorithms were used, including Linear Discriminant Analysis, Random Forest, Support Vector Machine, k-nearest neighbors, and Logistic Regression, and a principal component analysis was conducted for each algorithm. After optimizing the hyperparameters, the testing data were used to validate the model. The best model to estimate miner infestation was RF, which had an accuracy of 0.86, a kappa index of 0.64, and a precision of 0.87. The developed models were capable of monitoring coffee leaf miner infestation.
Funder
“Fundação de Amparo à Pesquisa de Minas Gerais” “Conselho Nacional de Desenvolvimento Científico e Tecnológico” “Consórcio Brasileiro de Pesquisa e Desenvolvimento do Café”
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