Artificial Intelligence by Artificial Neural Networks to Simulate Oat (Avena sativa L.) Grain Yield Through the Growing Cycle

Scremin, Osmar Bruneslau; Silva, José Antônio Gonzalez da; Carvalho, Ivan Ricardo; Mamann, Ângela Teresinha Woschinski De; Kraisig, Adriana Roselia; Rosa, Juliana Aozane Da; Peter, Cibele Luisa; Warmbier, Eduarda; Pereira, Laura Mensch; Basso, Natiane Carolina Ferrari; Argenta, Cláudia Vanessa; Matter, Ester Mafalda

doi:10.5296/jas.v8i4.17711

Cited by 5 publications

(5 citation statements)

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“…The predictive accuracy of their ANN model was confirmed in the training and testing sets with R 2 values of 0.998 and 0.996, respectively. Scremin et al [ 24 ] used ANN model for modeling and predicting oat grain yield according to four levels of nitrogen as input variables.…”

Section: Resultsmentioning

confidence: 99%

“…Among the various ML algorithms, artificial neural networks (ANNs) have been considered as the most well-known models [ 22 ]. The effectiveness and reliability of these models in investigating and predicting different fertilizers have been confirmed in different plants such as wheat [ 23 ] and oat [ 24 ]. Genetic algorithm (GA) is a well-known single objective optimization algorithm, which a hybrid with ANN (ANN-GA) make them a potential hybrid model for modeling and optimizing in different biology and agriculture systems such as soil heavy metals [ 25 ], plant tissue culture [ 19 , 26 , 27 ], and adsorption and photocatalysis of a synthesized nanomaterial [ 28 ].…”

Section: Introductionmentioning

confidence: 99%

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Application of artificial neural networks and genetic algorithm to predict and optimize greenhouse banana fruit yield through nitrogen, potassium and magnesium

Ramezanpour

Farajpour

2022

PLoS ONE

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The excess of the chemical fertilizers not only causes the environmental pollution but also has many deteriorating effects including global warming and alteration of soil microbial diversity. In conventional researches, chemical fertilizers and their concentrations are selected based on the knowledge of experts involved in the projects, which this kind of models are usually subjective. Therefore, the present study aimed to introduce the optimal concentrations of three macro elements including nitrogen (0, 100, and 200 g), potassium (0, 100, 200, and 300 g), and magnesium (0, 50, and 100 g) on fruit yield (FY), fruit length (FL), and number of rows per spike (NRPS) of greenhouse banana using analysis of variance (ANOVA) followed by post hoc LSD test and two well-known artificial neural networks (ANNs) including multilayer perceptron (MLP) and generalized regression neural network (GRNN). According to the results of ANOVA, the highest mean value of the FY was obtained with 200 g of N, 300 g of K, and 50 g of Mg. Based on the results of the present study, the both ANNs models had high predictive accuracy (R2 = 0.66–0.99) in the both training and testing data for the FY, FL, and NRPS. However, the GRNN model had better performance than MLP model for modeling and predicting the three characters of greenhouse banana. Therefore, genetic algorithm (GA) was subjected to the GRNN model in order to find the optimal amounts of N, K, and Mg for achieving the high amounts of the FY, FL, and NRPS. The GRNN-GA hybrid model confirmed that high yield of the plant could be achieved by reducing chemical fertilizers including nitrogen, potassium, and magnesium by 65, 44, and 62%, respectively, in compared to traditional method.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Application of artificial neural networks and genetic algorithm to predict and optimize greenhouse banana fruit yield through nitrogen, potassium and magnesium

Ramezanpour

Farajpour

2022

PLoS ONE

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“…In this sense, artificial intelligence techniques have emerged as an alternative for simulating and optimizing agricultural systems (Trautmann et al, 2020). Artificial neural networks (ANN) are among artificial intelligence techniques focused on implementing models that resemble biological neural structures (Scremin et al, 2020). Therefore, they can learn and generalize information from external data and provide consistent results for unknown data (Silva et al, 2018;De Mamann et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, they can learn and generalize information from external data and provide consistent results for unknown data (Silva et al, 2018;De Mamann et al, 2019). Artificial neural network models can efficiently simulate and estimate results based on common characteristics of the selected input variables (Scremin et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

Artificial Intelligence in the Simulation of Fungicide Management Scenarios for Satisfactory Yield and Food Safety in oat Crops

Rosa¹,

Dornelles²,

Silva³

et al. 2023

RGSA

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Purpose: The objective of the study is to analyze the management of the fungicide that seeks a longer interval between the last application and the harvest of oat grains, with an indication of the cultivars with the highest satisfactory productivity without application in the grain filling. Validate artificial neural network models in the expectation of satisfactory productivity with food security, through the interaction between management, pathogen, genotype, and environment. Method/design/approach: The study was conducted in 2015, 2016, 2017, in a randomized block design, in a 22 x 4 factorial scheme, for 22 white oat cultivars (recommended and no longer present in the current Brazilian recommendation) and 4 fungicide application conditions (no application; one application at 60 days after emergence (DAE); two applications, 60 and 75 DAE; and three applications, at 60, 75, 90 DAE), with three repetitions. Results and conclusion: The oat cultivars URS Altiva, URS, Guará, URS Charrua, FAEM 4 Carlasul, IPR Aphrodite, and UPFPS Farroupilha showed satisfactory yields in absence of fungicide applications. URS Altiva, FAEM 4 Carlasul, and IPR Aphrodite showed significant yield increases with fungicide application before grain filling. Artificial neural networks are efficient in predicting productivity and are a reliable alternative for simulating scenarios to validate more sustainable management practices. Originality/value: An unprecedented study seeking more sustainable managements to reduce the use of fungicides in the control of oat diseases and development of simulation models by artificial intelligence, providing opportunities for analysis of different scenarios of the complex interaction plant, pathogen, and environment.

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“…As RNAs são técnicas computacionais que apresentam um modelo inspirado na estrutura neural de organismos inteligentes, adquirem conhecimento através da experiência e o tornam disponíveis para uso. Assim, uma RNA é capaz de reconhecer padrões, ou seja, possui a capacidade de aprender por meio de exemplos e de generalizar 2 as informações aprendidas, gerando modelos não lineares, o que torna a sua aplicação fundamental e eficiente para simulação da produtividade de diversas culturas [12,13].…”

Section: Introductionunclassified

Redes Neurais Artificiais na Previsibilidade da Produtividade de Grãos da Aveia pelo uso do Nitrogênio e Condições do Ciclo de Desenvolvimento da Cultura

Rosa¹,

Mantai²,

Peter³

et al. 2022

Proceeding Series of the Brazilian Society of Computational and Applied Mathematics

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UNIJUÍ, IJUÍ, RSResumo. O uso da inteligência artificial (IA), com os modelos de simulação e otimização por redes neurais artificiais (RNAs), tem sido aplicado com êxito em diversas pesquisas ligadas a processos de biossistemas. A cultura da aveia branca é fortemente dependente do nitrogênio para garantir produtividade de grãos. O objetivo do trabalho é desenvolver um sistema adaptativo de inteligência artificial por redes neurais para a previsibilidade de produtividade de grãos de aveia pela produtividade de biomassa e elementos meteorológicos ao longo do ciclo do desenvolvimento, considerando o manejo de uso do nitrogênio em sistemas de sucessão soja/aveia e milho/aveia. O delineamento experimental foi de blocos casualizados com 4 repetições, seguindo um esquema fatorial 4 x 2, com quatro doses de nitrogênio (0 kg ha −1 , 30 kg ha −1 , 60 kg ha −1 e 120 kg ha −1 ) e duas cultivares (Barbarasul e Brisasul), no sistema de cultivo soja/aveia e milho/aveia nos anos agrícolas de 2011 a 2016. No desenvolvimento dos modelos de simulação via RNA foi utilizado o toolbox neural network, do software Matlab. As redes neurais artificiais se apresentam como uma ferramenta de grande contribuição ao desenvolvimento de modelos de previsibilidade voltados a produtividade de grãos, sendo capazes que estimar com alta precisão as produtividades e a qualidade nutricional relacionadas com um grande número de variáveis.

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Artificial Intelligence by Artificial Neural Networks to Simulate Oat (Avena sativa L.) Grain Yield Through the Growing Cycle

Cited by 5 publications

References 25 publications

Application of artificial neural networks and genetic algorithm to predict and optimize greenhouse banana fruit yield through nitrogen, potassium and magnesium

Application of artificial neural networks and genetic algorithm to predict and optimize greenhouse banana fruit yield through nitrogen, potassium and magnesium

Artificial Intelligence in the Simulation of Fungicide Management Scenarios for Satisfactory Yield and Food Safety in oat Crops

Redes Neurais Artificiais na Previsibilidade da Produtividade de Grãos da Aveia pelo uso do Nitrogênio e Condições do Ciclo de Desenvolvimento da Cultura

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