Pattern-based prediction of population outbreaks.

Pattern-based prediction of population outbreaks.

Resumo: A complexidade e a importância prática dos surtos de insetos tornaram o problema de prever surtos um foco de pesquisa recente. Propomos o método de Previsão Baseada em Padrões (PBP) para prever surtos populacionais. Este método usa informações sobre valores de séries temporais anteriores que precedem um evento de surto como preditores de surtos futuros, o que pode ser útil ao monitorar espécies de pragas. Nós ilustramos o método usando conjuntos de dados simulados e uma série temporal de pulgões obtida em lavouras de trigo no sul do Brasil. Abstract: The complexity and practical importance of insect outbreaks have made the problem of predicting outbreaks a focus of recent research. We propose the Pattern-Based Prediction (PBP) method for predicting population outbreaks. It uses information on previous time series values that precede an outbreak event as predictors of future outbreaks, which can be helpful when monitoring pest species. We illustrate the methodology using simulated datasets and an aphid time series obtained in wheat crops in Southern Brazil. We obtained an average test accuracy of 84.6% in the simulation studies implemented with stochastic models and 95.0% for predicting outbreaks using a time series of aphids in wheat crops in Southern Brazil. Our results show the PBP method's feasibility in predicting population outbreaks. We benchmarked our results against established state-of-the-art machine learning methods: Support Vector Machines, Deep Neural Networks, Long Short Term Memory and Random Forests. The PBP method yielded a competitive performance associated with higher true-positive rates in most comparisons while providing interpretability rather than being a black-box method. It is an improvement over current state-of-the-art machine learning tools, especially by non-specialists, such as ecologists aiming to use a quantitative approach for pest monitoring. We provide the implemented PBP method in Python through the pypbp package.

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Main Authors: PALMA, G. R., GODOY, W. A. C., ENGEL, E., LAU, D., GALVAN, E., MASON, O., MARKHAM, C., MORAL, R. A.
Other Authors: GABRIEL R. PALMA, Maynooth University; WESLEY A. C. GODOY, Universidade de São Paulo; EDUARDO ENGEL, Universidade de São Paulo; DOUGLAS LAU, CNPT; EDGAR GALVAN, Maynooth University; OLIVER MASON, Maynooth University; CHARLES MARKHAM, Maynooth University; RAFAEL A. MORAL, Maynooth University.
Format: Artigo de periódico biblioteca
Language:Ingles
English
Published: 2023-08-08
Subjects:Monitoramento de pragas, Alert zone procedure, Deep learning, Machine learning, Time series, Sistemas de Suporte à Tomada de Decisão, Sistemas alerta, Aprendizado de máquina, Séries Temporais, Trigo, Lavoura, Praga de Planta, Dinâmica Populacional, Afídeo, Epidemiologia, Population dynamics, Time series analysis, Wheat,
Online Access:http://www.alice.cnptia.embrapa.br/alice/handle/doc/1155768
https://doi.org/10.1016/j.ecoinf.2023.102220
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spelling dig-alice-doc-11557682023-08-08T19:24:21Z Pattern-based prediction of population outbreaks. PALMA, G. R. GODOY, W. A. C. ENGEL, E. LAU, D. GALVAN, E. MASON, O. MARKHAM, C. MORAL, R. A. GABRIEL R. PALMA, Maynooth University; WESLEY A. C. GODOY, Universidade de São Paulo; EDUARDO ENGEL, Universidade de São Paulo; DOUGLAS LAU, CNPT; EDGAR GALVAN, Maynooth University; OLIVER MASON, Maynooth University; CHARLES MARKHAM, Maynooth University; RAFAEL A. MORAL, Maynooth University. Monitoramento de pragas Alert zone procedure Deep learning Machine learning Time series Sistemas de Suporte à Tomada de Decisão Sistemas alerta Aprendizado de máquina Séries Temporais Trigo Lavoura Praga de Planta Dinâmica Populacional Afídeo Epidemiologia Population dynamics Time series analysis Wheat Resumo: A complexidade e a importância prática dos surtos de insetos tornaram o problema de prever surtos um foco de pesquisa recente. Propomos o método de Previsão Baseada em Padrões (PBP) para prever surtos populacionais. Este método usa informações sobre valores de séries temporais anteriores que precedem um evento de surto como preditores de surtos futuros, o que pode ser útil ao monitorar espécies de pragas. Nós ilustramos o método usando conjuntos de dados simulados e uma série temporal de pulgões obtida em lavouras de trigo no sul do Brasil. Abstract: The complexity and practical importance of insect outbreaks have made the problem of predicting outbreaks a focus of recent research. We propose the Pattern-Based Prediction (PBP) method for predicting population outbreaks. It uses information on previous time series values that precede an outbreak event as predictors of future outbreaks, which can be helpful when monitoring pest species. We illustrate the methodology using simulated datasets and an aphid time series obtained in wheat crops in Southern Brazil. We obtained an average test accuracy of 84.6% in the simulation studies implemented with stochastic models and 95.0% for predicting outbreaks using a time series of aphids in wheat crops in Southern Brazil. Our results show the PBP method's feasibility in predicting population outbreaks. We benchmarked our results against established state-of-the-art machine learning methods: Support Vector Machines, Deep Neural Networks, Long Short Term Memory and Random Forests. The PBP method yielded a competitive performance associated with higher true-positive rates in most comparisons while providing interpretability rather than being a black-box method. It is an improvement over current state-of-the-art machine learning tools, especially by non-specialists, such as ecologists aiming to use a quantitative approach for pest monitoring. We provide the implemented PBP method in Python through the pypbp package. 2023-08-08T19:24:21Z 2023-08-08T19:24:21Z 2023-08-08 2023 Artigo de periódico Ecological Informatics, v. 77, 102220, nov. 2023. http://www.alice.cnptia.embrapa.br/alice/handle/doc/1155768 https://doi.org/10.1016/j.ecoinf.2023.102220 Ingles en openAccess
institution EMBRAPA
collection DSpace
country Brasil
countrycode BR
component Bibliográfico
access En linea
databasecode dig-alice
tag biblioteca
region America del Sur
libraryname Sistema de bibliotecas de EMBRAPA
language Ingles
English
topic Monitoramento de pragas
Alert zone procedure
Deep learning
Machine learning
Time series
Sistemas de Suporte à Tomada de Decisão
Sistemas alerta
Aprendizado de máquina
Séries Temporais
Trigo
Lavoura
Praga de Planta
Dinâmica Populacional
Afídeo
Epidemiologia
Population dynamics
Time series analysis
Wheat
Monitoramento de pragas
Alert zone procedure
Deep learning
Machine learning
Time series
Sistemas de Suporte à Tomada de Decisão
Sistemas alerta
Aprendizado de máquina
Séries Temporais
Trigo
Lavoura
Praga de Planta
Dinâmica Populacional
Afídeo
Epidemiologia
Population dynamics
Time series analysis
Wheat
spellingShingle Monitoramento de pragas
Alert zone procedure
Deep learning
Machine learning
Time series
Sistemas de Suporte à Tomada de Decisão
Sistemas alerta
Aprendizado de máquina
Séries Temporais
Trigo
Lavoura
Praga de Planta
Dinâmica Populacional
Afídeo
Epidemiologia
Population dynamics
Time series analysis
Wheat
Monitoramento de pragas
Alert zone procedure
Deep learning
Machine learning
Time series
Sistemas de Suporte à Tomada de Decisão
Sistemas alerta
Aprendizado de máquina
Séries Temporais
Trigo
Lavoura
Praga de Planta
Dinâmica Populacional
Afídeo
Epidemiologia
Population dynamics
Time series analysis
Wheat
PALMA, G. R.
GODOY, W. A. C.
ENGEL, E.
LAU, D.
GALVAN, E.
MASON, O.
MARKHAM, C.
MORAL, R. A.
Pattern-based prediction of population outbreaks.
description Resumo: A complexidade e a importância prática dos surtos de insetos tornaram o problema de prever surtos um foco de pesquisa recente. Propomos o método de Previsão Baseada em Padrões (PBP) para prever surtos populacionais. Este método usa informações sobre valores de séries temporais anteriores que precedem um evento de surto como preditores de surtos futuros, o que pode ser útil ao monitorar espécies de pragas. Nós ilustramos o método usando conjuntos de dados simulados e uma série temporal de pulgões obtida em lavouras de trigo no sul do Brasil. Abstract: The complexity and practical importance of insect outbreaks have made the problem of predicting outbreaks a focus of recent research. We propose the Pattern-Based Prediction (PBP) method for predicting population outbreaks. It uses information on previous time series values that precede an outbreak event as predictors of future outbreaks, which can be helpful when monitoring pest species. We illustrate the methodology using simulated datasets and an aphid time series obtained in wheat crops in Southern Brazil. We obtained an average test accuracy of 84.6% in the simulation studies implemented with stochastic models and 95.0% for predicting outbreaks using a time series of aphids in wheat crops in Southern Brazil. Our results show the PBP method's feasibility in predicting population outbreaks. We benchmarked our results against established state-of-the-art machine learning methods: Support Vector Machines, Deep Neural Networks, Long Short Term Memory and Random Forests. The PBP method yielded a competitive performance associated with higher true-positive rates in most comparisons while providing interpretability rather than being a black-box method. It is an improvement over current state-of-the-art machine learning tools, especially by non-specialists, such as ecologists aiming to use a quantitative approach for pest monitoring. We provide the implemented PBP method in Python through the pypbp package.
author2 GABRIEL R. PALMA, Maynooth University; WESLEY A. C. GODOY, Universidade de São Paulo; EDUARDO ENGEL, Universidade de São Paulo; DOUGLAS LAU, CNPT; EDGAR GALVAN, Maynooth University; OLIVER MASON, Maynooth University; CHARLES MARKHAM, Maynooth University; RAFAEL A. MORAL, Maynooth University.
author_facet GABRIEL R. PALMA, Maynooth University; WESLEY A. C. GODOY, Universidade de São Paulo; EDUARDO ENGEL, Universidade de São Paulo; DOUGLAS LAU, CNPT; EDGAR GALVAN, Maynooth University; OLIVER MASON, Maynooth University; CHARLES MARKHAM, Maynooth University; RAFAEL A. MORAL, Maynooth University.
PALMA, G. R.
GODOY, W. A. C.
ENGEL, E.
LAU, D.
GALVAN, E.
MASON, O.
MARKHAM, C.
MORAL, R. A.
format Artigo de periódico
topic_facet Monitoramento de pragas
Alert zone procedure
Deep learning
Machine learning
Time series
Sistemas de Suporte à Tomada de Decisão
Sistemas alerta
Aprendizado de máquina
Séries Temporais
Trigo
Lavoura
Praga de Planta
Dinâmica Populacional
Afídeo
Epidemiologia
Population dynamics
Time series analysis
Wheat
author PALMA, G. R.
GODOY, W. A. C.
ENGEL, E.
LAU, D.
GALVAN, E.
MASON, O.
MARKHAM, C.
MORAL, R. A.
author_sort PALMA, G. R.
title Pattern-based prediction of population outbreaks.
title_short Pattern-based prediction of population outbreaks.
title_full Pattern-based prediction of population outbreaks.
title_fullStr Pattern-based prediction of population outbreaks.
title_full_unstemmed Pattern-based prediction of population outbreaks.
title_sort pattern-based prediction of population outbreaks.
publishDate 2023-08-08
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1155768
https://doi.org/10.1016/j.ecoinf.2023.102220
work_keys_str_mv AT palmagr patternbasedpredictionofpopulationoutbreaks
AT godoywac patternbasedpredictionofpopulationoutbreaks
AT engele patternbasedpredictionofpopulationoutbreaks
AT laud patternbasedpredictionofpopulationoutbreaks
AT galvane patternbasedpredictionofpopulationoutbreaks
AT masono patternbasedpredictionofpopulationoutbreaks
AT markhamc patternbasedpredictionofpopulationoutbreaks
AT moralra patternbasedpredictionofpopulationoutbreaks
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