PPG.EGPSA/ITEGAM
URI permanente desta comunidadehttps://rigalileo.itegam.org.br/handle/123456789/1
A comunidade dispõe da produção técnica e científica do Programa de Pós-graduação em Engenharia, Gestão de Processos, Sistema e Ambiental (PPG.EGPSA) do Instituto de Tecnologia e Educação Galileo da Amazônia (ITEGAM), fruto da atividade de pesquisa e desenvolvimento (P&D). É possível acessar os trabalhos de conclusão do programa de pós-graduação, artigos e livros vinculados a pesquisa, desenvolvimento, inovação e extensão.
Navegar
5 resultados
Resultados da Pesquisa
Item Aplicação da Teoria dos Jogos no Gerenciamento do Contexto das Altas Temperaturas na Cidade de Manaus(Instituto de Tecnologia e Educação Galileo da Amazônia, 2024) SOUZA, Amós Ribeiro de; ALENCAR, David Barbosa deThe objective of this study was to develop a model based on game theory to analyze the interactions between different agents involved in managing high temperatures in the city of Manaus. The city faces growing challenges related to increasing temperatures, exacerbated by climate change and unplanned urbanization. In this context, Game Theory emerges as a strategic tool to model interactions between the government, companies, and communities, enabling the identification of collaborative and effective solutions. The research used a quantitative approach with simulations that analyzed strategic scenarios and possible equilibria, considering economic, social, and environmental aspects. The results demonstrated the feasibility of cooperative strategies that minimize climate impacts and guide more sustainable public policies. It is concluded that Game Theory offers an efficient strategy for urban climate management, being applicable both in Manaus and in other urban contexts. The proposed approach not only identified effective strategies but also highlighted the importance of collaboration between different agents to achieve significant results in tackling climate change.Item Aplicação da Teoria dos Jogos no Gerenciamento do Contexto das Altas Temperaturas na Cidade de Manaus(Instituto de Tecnologia e Educação Galileo da Amazônia, 2025) SOUZA, Amós Ribeiro de; ALENCAR, David Barbosa de; SANTOS, Eliton Smith dos; CAMPOS, Paola Souto; MORAES, Nadime Mustafa; SOUZA, Silvia Cristina Matos de; LEITE, Jandecy CabralThe city of Manaus faces increasing challenges related to high temperatures, intensified by climate change and unplanned urbanization. Efficient management of this context is essential to mitigate negative impacts on the population and the environment. This study employs Game Theory as a strategic tool to model interactions among government, businesses, NGOs, and the population. Through simulations and Nash equilibrium analysis, feasible cooperative strategies were identified to minimize climate impacts and guide more sustainable public policies, promoting a balance between economic development and environmental preservation.Item Rain Prediction Model Using Artificial Neural Networks(Instituto de Tecnologia e Educação Galileo da Amazônia, 2022) Gustavo Galdino Rodrigues; LEITE, Jandecy CabralPrecipitation is crucial for environmental sustainability and life. Accurate forecasts can mitigate floods, environmental disasters, and agricultural losses. This study presents an hourly rain prediction model using Artificial Neural Networks (ANNs) based on meteorological data from the National Institute of Meteorology (INMET) in Manaus/AM. Various network architectures were tested to determine the optimal configuration. The results demonstrated that the model effectively reproduced precipitation behavior, particularly on rainy days. However, for convective events, the model failed to capture intensity accurately, suggesting the need for additional atmospheric variables.Item Modelo de avaliação de saneamento básico usando Sistema de Inferência Fuzzy(Instituto de Tecnologia e Educação Galileo da Amazônia, 2024) NASCIMENTO, Aline Santos do; ALENCAR, David Barbosa de; NASCIMENTO, Manoel Henrique Reis; SANTOS, Lucélia Cunha da Rocha; MORAES, Nadime Mustafa; LEITE, Jandecy CabralThis study developed a fuzzy inference model to assess the quality of basic sanitation services. The model analyzed indicators such as water supply, sewage, and waste management, using fuzzy methodology to address uncertainties and generate more accurate diagnoses. The results demonstrated that fuzzy logic is effective in identifying critical points in sanitation, offering solutions to reduce costs and increase efficiency. The model is adaptable to different regional contexts, facilitating its application in other locations and supporting the fulfillment of SDG 6.Item Aplicação da Teoria dos Jogos no gerenciamento do contexto das altas temperaturas na cidade de Manaus(Instituto de Tecnologia e Educação Galileo da Amazônia, 2024) SOUZA, Amós Ribeiro de; ALENCAR, David Barbosa de; SANTOS, Eliton Smith dos; CAMPOS, Paola Souto; MORAES, Nadime Mustafa; SOUZA, Silvia Cristina Matos de.; LEITE, Jandecy CabralThe city of Manaus faces increasing challenges related to high temperatures, a problem intensified by climate change and unplanned urbanization. Efficient management of this climatic context is essential to minimize negative impacts on the population and the environment, promoting sustainability and urban well-being. In this scenario, Game Theory emerges as a strategic tool to model interactions among the various agents involved in climate management, such as government, businesses, and communities, enabling the identification of collaborative and effective solutions. This study employed a Game Theory-based model to explore the strategic dynamics among the agents involved in managing high temperatures in Manaus. The research utilized a quantitative methodology, with simulations analyzing strategic scenarios and potential equilibria, considering economic, social, and environmental aspects. The results revealed the feasibility of cooperative strategies to mitigate climatic impacts and guide more sustainable public policies. The study provides a significant contribution by proposing integrated solutions to balance economic development and environmental preservation in a challenging urban context.