Navegando por Assunto "Plataforma de monitoramento"
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Item Automação residencial para monitoramento e irrigação automática de culturas de tomates em hortas verticais(Centro Universitário do Estado do Pará, 2017-05-16) Tavares Neto, Hugo Mendes; Alves, Elton Rafael; http://lattes.cnpq.br/8408339809247090; Brito, Itamar Jorge Vilhena de; http://lattes.cnpq.br/5143837732124006; Rocha, Johnny Marcus Gomes; http://lattes.cnpq.br/7014364443235002Since the urbanization process has led to the enlargement of cities and, consequently, diminishment of green zones inside towns, researches have been made in order to find sustainable methods to restore nature into city’s environment, where stands out the concept of vertical gardens. It was found to be a suitable solution for it, because of its proposal to grow fruits and vegetables in reduced spaces. A main example of fruit that can successfully develop in reduced environments is the tomato, which is also part of almost every human diet in the world. Meanwhile, aiming to manage these vertical gardens irrigation and regarding the waste of water in agriculture along with the ongoing hydric crisis, there is automation and ambient monitoring technology as a tendency to be implemented. Therefore, this paper is a research using the Arduino embedded computer platform integrated with sensors, actuators and men-machine interface to control the processes of irrigation and supervision of tomato cultures. Thus, the planting development was optimized and the waste of water seen in the manual irrigation system reduced, these factors established the influence of good irrigation management on the growing of the culture and the efficiency in the use of embedded systems to sustainable automation.Item Avaliação dos sistemas de informação na pandemia da COVID–19(Centro Universitário do Estado do Pará, 2022-06-09) Gadelha, Gabriel Ferdinando Costa; Macedo, Robson Oliveira; Silva, Yuri Henrique Monteiro da; Dias, Suzane Alfaia; http://lattes.cnpq.br/9675395702501834; Girotto, Pedro Henrique Sales; http://lattes.cnpq.br/0421749067951878; Melo, Ricardo Rodrigo Marinho; http://lattes.cnpq.br/4312449494921369Keeping informed is essential for problem solving, due to the high number of accumulated data, information systems were developed to ensure not only the collection, but also the standardized management and sharing of information. In 2020, the COVID-19 pandemic caused chãos around the world, causing governments to seek solutions to end this problem. The high number of new cases of the disease, deaths and recovered daily led to the creation of platforms such as websites and applications to inform and guide the population, making information systems important in this fight. In this article, 6 of these platforms were selected, in order to highlight their use in the pandemic, initially identifying their main characteristics, followed by the creation of comparative tables that pointed out relevant information such as the focus of each platform, the form of access, as well as problems encountered, these and other points were developed following criteria, which led to the choice of each analyzed platform. With this, it was observed that knowledge about the use of health information systems is important, however the lack of initial information about the disease, as well as political and social differences made it difficult to collect data for the creation of platforms, pointing out that many Countries need to rethink their ways of analyzing and acting in the face of problems such as the COVID-19 pandemic.Item Buggy: sistema de bug tracking para projetos(Centro Universitário do Estado do Pará, 2020) Aguiar, Bruno Costa de Masi de; Baganha, Alessandra Natasha Alcântara BarreirosBugs affect the lives of many software development teams around the world and, not uncommonly, development teams are unaware of a better way to organize and resolve these flaws, in ways that cause intermittency, instability and unreliability of entire environments. This Final Paper presents a system that provides software developers with a solution to monitor and identify bugs in the code and subsequent sending of reports to the primary system. The system was developed from bibliographic research and deductive methods with a qualitative approach to scientific articles related to the theme, also applying development methodologies and practices such as Scrum and Domain Driven Design. Through the use of questionnaires, it was possible to validate the applicability of the solution in the market, emphasizing the pertinence of integration with other platforms, in addition to the detection and categorization of bugs.Item IoTree: ambiente sensorizado para cultivo de horticulturas(Centro Universitário do Estado do Pará, 2020) Santos, Alessandro Vinícius Siqueira; Pereira, Luan Wesley Siqueira; Almeida Neto, Renato Souza de; Santos, Michelle Bitar Lelis dos; http://lattes.cnpq.br/1208797288539861; Girotto, Pedro Henrique Sales; http://lattes.cnpq.br/0421749067951878The growth of plants in homes became popular due to the change in mentality about sustainability and healthiness. However, cultivation requires time, space, knowledge and other factors, which keep people away from the interest of growing gardens. Thus, this work aims to create a sensorized environment for the cultivation of residential horticultures. For this, the factors that most impact on the development of plants were mapped and a database was developed capable of storing those data. Connected directly to the database, a mobile application was built to show the user real-time information of a plants’ environment, which were collected from the sensors that are within the elaborated compact greenhouse model.Item Sistema de automação para estufas residenciais(Centro Universitário do Estado do Pará, 2017-12-07) Guimarães, Julia Paier; Rocha, Johnny Marcus Gomes; http://lattes.cnpq.br/7014364443235002; Santos, Michelle Bitar Lelis dos; http://lattes.cnpq.br/1208797288539861; Melo, Diemisom Carlos Romano de; http://lattes.cnpq.br/1831226990848913Greenhouse cultivation is a technique that allows the creation of different types of crops, through the generation of microclimates using the control of parameters such as temperature, air humidity, soil moisture and luminosity from the environment. This project proposes the implementation of an automation system for indoor greenhouses using Raspberry Pi and the Node-RED platform to obtain control and monitoring of the parameters to simplify the cultivation of vegetables indoors.Item Sistema de automação para monitoramento ativo de equipamentos eletrônicos em estações rádio base(Centro Universitário do Estado do Pará, 2017-06-14) Rabelo, Israel Mariano; Rocha, Johnny Marcus Gomes; http://lattes.cnpq.br/7014364443235002; Mendonça, Eudes Danilo da Silva; http://lattes.cnpq.br/1404209498845660; Santos, Michelle Bitar Lelis dos; http://lattes.cnpq.br/1208797288539861Due to the growing evolution of the telecommunications sector, especially in the wireless Internet providers area, emerges a need to optimize the performance of structures that support for these, which are known as NodeB. Possessing equipments are installed in ambients that are unfavorable to maintenance, there appears the need for constant monitoring of these, with the goal of minimizing their downtime. Therefore, this work proposes a solution based on the platforms Arduino and Raspberry Pi, integrated with sensors and communication modules to generate a monitoring system with a SMS notification mechanism in cases of anomalies, in order to establish a predictive maintenance scenario, avoiding possible equipment failures.