Sede Azogues - Ingeniería Electrónica
URI permanente para esta comunidadhttps://dspace.ucacue.edu.ec/handle/ucacue/808
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Examinando Sede Azogues - Ingeniería Electrónica por Materia "Arduino"
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Ítem Acceso Abierto Diseño y construcción de un sistema de aquisición, procesamiento y visualización de datos para el análisis de la radiación UV. Casos de estudio: Azogues(Universidad Católica de Cuenca., 2018) García Tarqui, Fabián Antonio; Mata Quevedo, Jean Paúl; 0302365549; ., .The purpose of this present investigation is to expound the design - construction and implementation of a data acquisition system which allows analyzing the Ultra Violet (UV) radiation emitted by the sun over the city-Azogues, as well as visualize it by means of using a visual indicator (solar-tra c light). In order to monitor the solar activity in an arranged period of time, from 7:00 am to 19:00 pm, a system which consists of a Zopt2201 radiation sensor is used. This settled period of time is controlled by using a RTC clock module that is synchronized with an Arduino microcontroller, which is the brain of the process. The obtained data is stored in a micro SD memory in a text le. Once the monitored index data has been obtained, the microcontroller activates itself the accurate light indicator according to the color scale established by the World Health Organization (WHO). For six months in a roll the solar radiation has been monitored, an analysis of the variations that the UV index showed throughout the day with a time interval of ve minutes between each sample is done, as well as the average of the data collected in every single month respectively, these variations are being represented using graphs of sequential values. The process of the designing detail, construction, implementation and outcomes are presented in the content of this document and in the respective Annexes that prove the process carried out and the data acquisition as reliable. Finally, the conclusions, recommendations and future work are presented, the prior one being one of the most important aspects, thus being recommended the continuance of the present project either short or long term, with all the aforementioned, the achievement of the proposed objectives is clear.Ítem Acceso Abierto “Evaluación de la factibilidad de la tecnología LoRa WAN en el monitoreo ambiental de zonas con alto índices de contaminación de la ciudad de Azogues”(Universidad Católica de Cuenca., 2021) Tenecela Guamán, Edwin Cristian; Mata Quevedo, Jean Paúl; 0302399753; ., .This project pro poses the development of a fixed weather station with the use of LoRa W AN technology taking advantage of the low power consumption and coverage area characteristics of these devices. Nowadays, low-cost sensors with high energy efficiency are being sought since these devices do not need a large structure for their functionality. Therefore, this system propases the design and development of a fixed weather station in which the air quality, speed, wind direction, rain, UV light, carbon di.oxide, temperature, and humidity will be evaluated. The data transmission is done wirelessly evaluating the function and feasibility of the LoRa W AN communication technology; likewise, the analysis ofthese sensors can be visualized in real-time and for its storage, a database is created in Excel, where the record of the different types of sensors is kept.Ítem Acceso Abierto Implementación de una estación metereológica móvil para la obtención de datos ambientales en la ciudad de Azogues(Universidad Católica de Cuenca., 2021) Palaguachi Chabla, Manuel Rodolfo; Verdugo Ormaza, Diego Efraín; 0302205349; ., .This research work is focused on the development, analysis and implementation of a mobile weather station to obtain environmental data by means of a drone, based on the collection of information in real time, for which it is required to acquire data at a certain height and in strategic places, which are sent to a database through the same Xbee technology that is used for the transport of information, for this the Arduino card and software are taken as the basis of development, since they provide the necessary benefits for the development of the project in question, for the census of the different meteorological variables there are different patterns, such as humidity, temperature, atmospheric pressure, carbon dioxide〖(CO〗_2) these communicate with the Arduino Fio and functions of wireless communication through radio frequency modules. These acquired data are transferred serially to the computer for storage and visualization, which are observed in real time through a graphical interface, which will help determine certain basic characteristics of the environment where the study is carried out.Ítem Acceso Abierto Prototipo electrónico para el desarrollo de prácticas experimentales de física en el bachillerato(Universidad Católica de Cuenca., 2019) Matute Nieto, Carlos Sebastián; Mata Quevedo, Jean Paúl; 0302187133; ., .In chapter one, the problem and the possible solutions are diagnosed; in addition, the general objective, the specific objectives, the hypothesis, the thesis contributions that are: theoretical - methodological contribution, the practical contribution, the scientific novelty; and the state of the art, are in it. The second chapter is about the theoretical foundation where the fundamental bases referring to physics laboratories are investigated, such bases are their use, basic laboratory practices and the stages to carry out laboratory practices; An analysis is also carried out on: software in teaching - learning, educational software, educational programs characteristics, types of educational software, among others; In addition, electronic software is investigated: Arduino and LabVIEW, sensors, motor, conveyor belt, module to control the direction and speed of the motor, these will be used in the electronic prototype construction for physics practices. The third chapter refers to the materials or elements basic requirements which are part of the physics laboratory; an investigation on the diagnosis of the Azogues schools physics laboratories is made through surveys in six different schools which were selected strategically, for this survey the first year high school students were selected, the objective of this is to know the physics laboratories current situations in different schools, the total number of students surveyed is 192. The fourth chapter aims to the electronic prototype design and construction, which has been developed in five parts. The first one is the model design, the second part is about the model design, the model was made in wood for its easy handling, the third part is the software design, it is subdivided in two sections, the first one is LabVIEW the programming and the second is Arduino programming; the fourth part is about the flow diagrams for each practice, and finally there is the practices manual where each of them is specified: uniform rectilinear movement, uniformly varied rectilinear motion, kinetic energy, work and power. In the fifth chapter a results analysis is made to expose them by means of conclusions and recommendations, in order to meet this objective, the first and second year students of the Catholic University Educational Unit were surveyed after having completed the internship.Ítem Acceso Abierto Sistema de geolocalización en tiempo real, aplicado al registro de recorridos del vehículo eléctrico de la Universidad Católica de Cuenca(Universidad Católica de Cuenca., 2020) Álvarez Pinos, Hermes Israel; Calle Lliguizaca, Carlos Alfredo; Ortega Castro, Juan Carlos; 0302195342; 0302560743; ., .This work presents a geolocation system for the electric vehicle of the Catholic University of Cuenca, which will allow obtaining the data of its location in real-time and it will generate alarms if it exceeds the limits within its travel areas. The developed prototype tributes to the Smart UniverCity Cato 2.0 research project, which aims to generate proposals that promote the promotion of information and communication technologies, to obtain intelligent systems that lead us to the development of a smart city, additionally, it is inclusive by having the ability to expand into future jobs that improve vehicle automation. The present work shows the methodology used for the development and programming of the hardware and software devices used, as well as the development of a web page, which allows to accomplish the stated objectives and determine its record routes.
