Navegando por Autor "CASTRO, Hilton Barros de"

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    Sistemas embarcados para eficiência energética de ambientes climatizados
    (Instituto de Educação e Tecnologia Galileo da Amazônia, 2022-01-31) CASTRO, Hilton Barros de; LEITE, Jandecy Cabral; http://lattes.cnpq.br/7279183940171317
    The consumption of electricity grows as technology advances, as this, almost entirely depends on the power of some energy source, the increase in this consumption causes positive impacts, but also negative ones, one of them is due to the high cost of the energy. resources, the reduction of medical resources education in Brazil makes institutions look for a clinic to reduce expenses and one is, to be able to use efficiency in the consumption of electricity. This work aims to reduce the consumption of electricity, increase the duration of climate control devices and improve thermal comfort, to reduce cost resources, the air conditioning was developed for a computerized system, to control the temperature in the environments, the use of sensors to adjust the temperature of the people and the environment, to train the access of people and, communication and control of the devices that air conditioning the environment. After the implementation of this technology in the proposed environments, the system began to regulate the air system(s), seeking to compensate for a temperature different from the temperature of the air conditioning device by the user, based on the set. Of sensors and, end the activity of the device when there are no people in the environment as well as initiating a user to enter the place.
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    Sistemas embarcados para eficiência energética de ambientes climatizados
    (Instituto de Tecnologia e Educação Galileo da Amazônia, 2021-06-20) CASTRO, Hilton Barros de; LEITE, Jandecy Cabral
    This study presents the development and implementation of embedded systems for energy efficiency in air-conditioned environments. The proposal aims to create an automated system capable of controlling climate in environments using sensors and algorithms to adjust temperature efficiently, reducing electricity consumption. The research was conducted at a campus of the Federal Institute of Amazonas (IFAM) and involves the use of technologies such as Arduino and temperature and motion sensors, demonstrating the feasibility of intelligent systems in managing energy consumption in institutional environments.