This thesis describes the development of sea aquarium controller. The technologies that are combined here are Arduino, Android and electronic circuit.
In the core of this system lies microconrtoller Arduino. It is attached to electronic circuit, that has in this version attached temperature sensor, clock that runs correctly even after power outage, Bluetooth interface for communication with control station (e.g. Android device), SD memory card for logging of current state and events. Program on microcontroller Arduino is written with C/C++ programming language. At first controller has default settings built in si it would know how to control sensors and components. These settings can be altered with Android application that runs on some device that has Bluetooth connection to controller. With this application user can look back into how the controller was performing so it can be determined if controller reacted correctly to all sensors states and if everything is efficent enough.
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