An approach via fuzzy systems for dynamics and control of the soybean aphid

Peixoto, Magda S.; Barros, Laécio Carvalho de; Bassanezi, Rodney Carlos

doi:10.2991/ifsa-eusflat-15.2015.183

Cited by 8 publications

(8 citation statements)

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“…These tools provide early-warning of pest and disease outbreaks and facilitate the selection of sustainable cropland management practices. Peixoto et al (2015), developed an approach via fuzzy systems for understanding the population dynamics and control soybean aphid (Aphis glycines). They used fuzzy sets theory-based methodology to describe the interaction between the soybean aphid and its predator, Orius insidiosus.…”

Section: Crop Management Systemsmentioning

confidence: 99%

Role of artificial intelligence in achieving global food security: a promising technology for future

et al. 2020

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Rapid growth of population, diminishing natural resources, climate change, shrinking agricultural lands and unstable markets are making the global food systems rather insecure. Therefore, modern agriculture and food systems should be more productive in terms of output, efficient in operation, resilient to climate change and sustainable for the future generations. As a result, the need of a technological transformation is greater than ever before. Being a recent advancement in computer sciences, Artificial Intelligence (AI) has the capacity to address the challenges of this new paradigm. Hence, understanding the importance and applicability of AI in agriculture and food sector could be vital in the journey towards achieving global food security. This review focuses on the AI applications in relation to four pillars of food security (food availability, food accessibility, food utilization and stability) as defined by FAO, in detail. The AI technologies are being applied worldwide in all four pillars of food security even though it has been one of the slower adopted technologies compared to the rest. Nevertheless, it warrants exploring the capabilities of AI and their current impact on the food systems. It is eminent that AI technology has a key role to play in the future agriculture sector. The worldwide AI in agriculture market is expected to reach USD 2,075 million by 2024. Present article reveals how AI technologies could benefit global agriculture and food sector, and examines the ways by which AI can address the prominent issues in Sri Lankan agriculture sector such as labor scarcity, misuse of agrochemicals and inefficient food value chains. Though there are still many challenges and gaps to be addressed at research, policy, administrative and farmer levels, the immense potential of this novel technology should be exploited fast in the journey towards global food security.

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Section: Crop Management Systemsmentioning

confidence: 99%

Role of artificial intelligence in achieving global food security: a promising technology for future

et al. 2020

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“…Estudos têm mostrado que o percevejo Orius insidiosus (Hemiptera: Anthocoridae), é um importante predador do pulgão-da-soja (Hunt, 2005;Ragsdale, 2007}. A priori, modelar as interações desses insetos por meio de um sistema de equações diferenciais, como normalmente é feito, é bastante complicado, porque as informações sobre tal ecossistema são, na sua maioria, qualitativas. Com tais informações, foi possível modelar esse fenômeno por meio de regras que relacionem, ainda que parcialmente, as variáveis de estado com suas variações (Peixoto et al, 2015). Em Peixoto et al (2015) utilizamos um sistema baseado em regras fuzzy (SBRF) (Barros et al, 2017) para elaborar um modelo do tipo presa-predador para estudar a interação entre o pulgão-da-soja (presa) e seu predador -Orius insidiosus, considerando fatores bióticos (predador) e abióticos (temperatura).…”

Section: Considerações Finaisunclassified

“…Com tais informações, foi possível modelar esse fenômeno por meio de regras que relacionem, ainda que parcialmente, as variáveis de estado com suas variações (Peixoto et al, 2015). Em Peixoto et al (2015) utilizamos um sistema baseado em regras fuzzy (SBRF) (Barros et al, 2017) para elaborar um modelo do tipo presa-predador para estudar a interação entre o pulgão-da-soja (presa) e seu predador -Orius insidiosus, considerando fatores bióticos (predador) e abióticos (temperatura). Propomos o uso de um SBRF ao invés das usuais equações diferenciais que caracterizam os modelos determinísticos clássicos.…”

Section: Considerações Finaisunclassified

“…Propomos o uso de um SBRF ao invés das usuais equações diferenciais que caracterizam os modelos determinísticos clássicos. Em Peixoto et al (2015) nosso principal objetivo foi a tomada de decisão no controle de praga pelo uso de inseticida, em sistemas do tipo presa-predador. É natural que se decida a quantidade de inseticida a ser aplicada em função da quantidade de pulgões (presas) presente nas plantas, ou seja, quanto maior a densidade populacional de afídeos, maior a quantidade de inseticida necessária.…”

Section: Considerações Finaisunclassified

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Mamíferos De Médio E Grande Porte Em Um Fragmento De Floresta Estacional Semidecidual Em Minas Gerais

Pacheco¹,

Sampaio²,

Ferreira³

et al. 2019

Desafios Teóricos E Aplicados Da Ecologia Contemporânea

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Todo o conteúdo deste livro está licenciado sob uma Licença de Atribuição Creative Commons. Atribuição 4.0 Internacional (CC BY 4.0). O conteúdo dos artigos e seus dados em sua forma, correção e confiabilidade são de responsabilidade exclusiva dos autores. Permitido o download da obra e o compartilhamento desde que sejam atribuídos créditos aos autores, mas sem a possibilidade de alterá-la de nenhuma forma ou utilizá-la para fins comerciais.

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“…The aphids are greatly affected by temperatures above 30˚C, and they are reported to begin to die when temperatures reach 35˚C [1]. We proposed in [7] a fuzzy chemical control to soybean aphid, that is, the model provides how often and how much to apply the insecticides on the plants. This work describes a method based in Mamdani Fuzzy Control [8] to build a model to evaluate the interaction of the prey, A. glycines (the soybean aphid) and the predator, O. insidiosus (Hemiptera: Anthocoridae), considering the effects of the temperature in the growth of the prey population [1].…”

mentioning

confidence: 99%

On Fuzzy Control of Soybean Aphid

Peixoto¹,

Barros²,

Bassanezi³

2016

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This paper uses a methodology based in Fuzzy Sets Theory in order to describe the interaction between the prey, Aphis glycines (Hemiptera: Aphididae)-the soybean aphid, and its predator, Orius insidiosus (Hemiptera: Anthocoridae) and to propose a biological control to soybean aphid. Economic thresholds were already developed for this pest. The model includes biotic (predator) and abiotic (temperature) factors, which affect the soybean aphid population dynamics. The dynamic model results in a fuzzy model that preserves the biological meaning and nature of the predator-prey model. The paper also includes a comparison between the fuzzy model and real data reported in the literature. Subsequently, we propose a biological control to soybean aphid by another fuzzy rule-based system. This model has allowed to predict timing and releasing number of predators for soybean aphid biological control. On the one hand, the soybean aphid has still not found in Brazil. Therefore, before any eventual invasion, a predictive model to enhance biological control program is desirable. On the other hand, the soybean aphid has become the most devastating insect pest of soybeans in the United States. Brazil is the second largest exporter of soybean at present, after the USA and before Argentina. According to the Bureau of Agriculture of the USA, it has been estimated that Brazil will be the largest soybean exporter in 2023.

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An approach via fuzzy systems for dynamics and control of the soybean aphid

Cited by 8 publications

References 11 publications

Role of artificial intelligence in achieving global food security: a promising technology for future

Role of artificial intelligence in achieving global food security: a promising technology for future

Mamíferos De Médio E Grande Porte Em Um Fragmento De Floresta Estacional Semidecidual Em Minas Gerais

On Fuzzy Control of Soybean Aphid

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