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Arduino/RPi weather station
Rolný, Jakub ; Šoustek, Petr (referee) ; Hůlka, Tomáš (advisor)
The content of the work is the design and creation of indoor and outdoor weather station, which can sense the required quantities using sensors. The measured data of the outdoor weather station, which is powered by a solar panel and battery are monitored on the online platform Arduino IoT Cloud using the NodeMcu ESP8266 development board, which is capable of wireless communication. The indoor weather station, which is based on the Arduino Uno development board, displays its measured data via a display.
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Design of IoT Seed Planter
Rapčanová, Kateřina ; Kůdela, Jakub (referee) ; Šoustek, Petr (advisor)
The aim of this bachelor thesis was to search for the possibilities of IoT planters, to get acquainted with the Arduino platform and to design and create an IoT planter based on this platform. WeMos D1 R2, which contains the Wi-Fi microchip ESP8266, was chosen as the development board. A graphic interface was created on the Arduino IoT Cloud web environment for a clear list of measured quantities, where a control program was also created. In addition, the system can be monitored and partially controlled via the IoT Remote mobile application. To achieve the conditions of the IoT system, automation was chosen in the form of turning on artificial light in case of insufficient daylight supply. The pad and sensor model has been fitted to a specific planter, but can be easily adapted to other dimensions.
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Design of IoT Seed Planter
Rapčanová, Kateřina ; Kůdela, Jakub (referee) ; Šoustek, Petr (advisor)
The aim of this bachelor thesis was to search for the possibilities of IoT planters, to get acquainted with the Arduino platform and to design and create an IoT planter based on this platform. WeMos D1 R2, which contains the Wi-Fi microchip ESP8266, was chosen as the development board. A graphic interface was created on the Arduino IoT Cloud web environment for a clear list of measured quantities, where a control program was also created. In addition, the system can be monitored and partially controlled via the IoT Remote mobile application. To achieve the conditions of the IoT system, automation was chosen in the form of turning on artificial light in case of insufficient daylight supply. The pad and sensor model has been fitted to a specific planter, but can be easily adapted to other dimensions.
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|
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Arduino/RPi weather station
Rolný, Jakub ; Šoustek, Petr (referee) ; Hůlka, Tomáš (advisor)
The content of the work is the design and creation of indoor and outdoor weather station, which can sense the required quantities using sensors. The measured data of the outdoor weather station, which is powered by a solar panel and battery are monitored on the online platform Arduino IoT Cloud using the NodeMcu ESP8266 development board, which is capable of wireless communication. The indoor weather station, which is based on the Arduino Uno development board, displays its measured data via a display.
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