By monitoring soil and atmosphere condition, we can use our models to maximize productivity. Thus, we built up an IoT system with Arduino Yun which is developed by Prof. Lin, Yi-Ping in NCTU and sensors on our experimental farm to monitor the conditions in time. Through the IoT system, we can improve our soil enhancing system to coincident with real condition. Besides, the current conditions will be shown on the user interface.
Difference between revisions of "Team:NCTU Formosa/Hardware"
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| − | By monitoring soil and atmosphere condition, we can use our models to maximize productivity. Thus, we built up an IoT system with Arduino Yun and sensors on our experimental farm to monitor the conditions in time. Through the IoT system, we can improve our soil enhancing system to coincident with real condition. | + | By monitoring soil and atmosphere condition, we can use our models to maximize productivity. Thus, we built up an IoT system with Arduino Yun which is developed by Prof. Lin, Yi-Ping in NCTU and sensors on our experimental farm to monitor the conditions in time. Through the IoT system, we can improve our soil enhancing system to coincident with real condition. |
Besides, the current conditions will be shown on the user interface. | Besides, the current conditions will be shown on the user interface. | ||
</p> | </p> | ||
Revision as of 17:03, 17 October 2018
Procedure
1. Build up our IoT system with Arduino Yun and sensors on the farm for instant supervisor.
2. Arduino Yun receives the conditions and transmitS to our cloud server through wi-fi.
3. Print out the current conditions to user interface with IoTtalk.
System Design
References
