Ingeniería en Sistemas, Electrónica e Industrial
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Item Sistema electrónico de monitoreo climático y detección de heladas para el GAD del cantón Pujilí(Universidad Técnica de Ambato. Facultad de Ingeniería en Sistemas, Electrónica e Industrial. Carrera de Telecomunicaciones, 2023-03) Salazar Lema, Steven Paul; Jurado Lozada, MarcoThe temperature is one of the main causes of the loss of crops within the farm, since it can drop so much that it causes a frost, since this occurs at dawn, farmers cannot cope with its effects, the seasons meteorological help to monitor these climatic anomalies, the GAD Pujilí, had a station of these characteristics, which was located in the ranch belonging to the municipality, which stopped operating in 2015, the present work shows the design and implementation of a new climate monitoring system for the GAD Pujilí. The location where the climate monitoring system is located does not have access to internet networks, so to know the data recorded by it, the station operator must go to it to compare the information obtained, to avoid this and have access LoRa technology is used for real-time information, in this way the transmitter node contains sensors that measure temperature, humidity and wind speed, the data obtained is sent to the receiver node, which is connected to a web server Hosted in the Azure cloud services portal, within the server the information is processed by Node-Red to store it in a database and if the processed data indicates that the crops are at risk, Node-Red generates an alert that It is sent via Telegram.Item Prototipo robótico para la desinfección de ambientes cerrados COVID(Universidad Técnica de Ambato. Facultad de Ingeniería en Sistemas, Electrónica e Industrial. Maestría en Electrónica y Automatización, 2022) Frías Moyón, Jefferson Ramiro; Gavilanes Carrión, Javier JoséAn IoT robotic prototype applied for the fumigation of closed spaces with COVID was implemented, the same one that allows reducing the effort and infections of the personnel. The robot is made up of a caterpillar-type mobile platform, powered by 12v Pololu motors, it has an ESP32 camera with 180 degrees of freedom for visualization of the space to be sanitized, it has a 1.5-liter reservoir tank for liquids, a 4-cell LiPo battery at 4Amperes whose duration is 2 hours with a recharge of 1 hour, in addition the platform has the ability to move on floors such as tiles, concrete and not very pronounced irregular areas. To control the prototype we will do it remotely through 2 ways; (1) IoT control through the internet that allows the device to be tele-operated between cities or even countries (2) through an RF control that will be located where the prototype is going to carry out the fumigation, used in an emergency when it loses communication over the internet. The sanitizer module is derived from current domestic humidification systems, this system together with the combined sanitizer chemical compound (Quaternary Ammonium, Glycerin, Water), together form an important disinfectant option to include in future robotic platforms; It is important to note that the automatic option is configured so that the thermal fogger works continuously in case of losing the internet connection, which has a range of 1.50 to 2 meters. The use of fumigation by smoke agent has been gaining importance in recent years due to the global COVID-19 pandemic with the aim of reducing the impact of the virus. It was used for this study, it will finally incorporate sensors such as Air Quality, Temperature, etc, which are part of the telemetry of the IoT mobile robot.