Desarrollo e implementación de un invernadero inteligente controlado con Arduino
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2019-06-24
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Jaén: Universidad de Jaén
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Los invernaderos permiten tener un mayor control del entorno donde crecen las plantas. Siendo útiles para aumentar la calidad y rendimiento de las plantaciones en algunas ubicaciones que, por motivos de localización geográfica , tiempo , temperatura no permiten la ubicación y plantación de esos cultivos . En este informe se recoge el desarrollo y la implementación de un proyecto clasificado en el mundo del control por computador . Consiste en una planta a escala de un invernadero, en la cual podemos tanto monitorizar variables como actuar sobre actuadores. Este proceso se realiza a través de Arduino. Se incluye también, el dio de una interfaz en Java, con la que interactuamos , haciendo posible el encendido y apagado de actuadores (bombilla, tres ventiladores y bomba de agua), así como visualizar variables de temperatura, humedad del suelo, luminosidad y nivel del tanque del agua, además de poder hacer un control todo/nada, un control P, PI, PID o una captura de datos (tanto automática, como de forma manual)
Greenhouses allow for greater control of the environment in which plants grow. Being useful to increase the quality and yield of plantations in some locations that, for some reasons that , for reasons of geographical ubication, time, temperature do not allow the location and planting of these crops. This report covers the development and implementation of a project classified in the world of computer control. It consists of a plant at the scale of a greenhouse, in which we can both monitor variables and act on actuators. This process is done through Arduino. It is also included, the design of a Java interface, with which we interact, making it possible to turn on and off actuators (light bulb, three fans and water pump), as well as display temperature variables , soil moisture, luminosity and water tank level , in addition to being able to make an all / nothing control, a P, PI, PID control or a data capture (both automatically , as well as manually)
Greenhouses allow for greater control of the environment in which plants grow. Being useful to increase the quality and yield of plantations in some locations that, for some reasons that , for reasons of geographical ubication, time, temperature do not allow the location and planting of these crops. This report covers the development and implementation of a project classified in the world of computer control. It consists of a plant at the scale of a greenhouse, in which we can both monitor variables and act on actuators. This process is done through Arduino. It is also included, the design of a Java interface, with which we interact, making it possible to turn on and off actuators (light bulb, three fans and water pump), as well as display temperature variables , soil moisture, luminosity and water tank level , in addition to being able to make an all / nothing control, a P, PI, PID control or a data capture (both automatically , as well as manually)
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Electrónica Industrial/Mención en Automática