Επίβλεψη, διαχείριση και έλεγχος αμπελώνα εξ’ αποστάσεως με χρήση αισθητήρων σε πλατφόρμα Arduino και παρουσίαση αποτελεσμάτων σε εφαρμογή Web.
Automated arduino watering system for controlling fields and display the measurements of the sensors in a web application using GSM / GPRS shield.
View/ Open
Date
2016-11-03Author
Νικολακάκης, Νικόλαος
Nikolakakis, Nikolaos
Metadata
Show full item recordAbstract
Η καλλιέργεια στην Κρήτη διαθέτει κατάλληλες κλιματικές και εδαφικές συνθήκες για την καλλιέργεια αρκετών ειδών δένδρων τόσο της εύκρατης όσο και της τροπικής και υποτροπικής ζώνης. Εκτός από την καλλιέργεια της ελιάς, που κατέχει τη πρώτη θέση, και των αμπελώνων Κρητικοί καλλιεργούν εσπεριδοειδή και άλλα αμέτρητα είδη λαχανικών ζαρζαβατικών κ.α., με σκοπό την παραγωγή και τελικά το εμπόριό τους. Όμως παρόλες τις αξιόλογες προσπάθειες και τη σκληρή δουλειά των καλλιεργητών, υπάρχουν αρκετά περιθώρια για αύξηση της παραγωγής και για βελτίωση της ποιότητας των δενδροκομικών προϊόντων στη Κρήτη, μέσω της αξιοποιήσιμης και πλέον προσιτής τεχνολογίας που διαθέτουμε σήμερα.Η παρούσα πτυχιακή εργασία εστιάζει στην ανάπτυξη ενός «έξυπνου» συστήματος που σκοπό θα έχει την αυτοματοποίηση μιας διαδικασίας στην καλλιέργεια των δενδροκομικών προϊόντων. The last few years it has occurred a great interest in automated data collection and processing systems. This interest stems from both the academic research level and from the potential users of technology.
This thesis is twofold. Firstly to provide an introduction to automated data collection and processing systems by sensors using microcontrollers and to present in detail the implementation of this automated control system.Although the title of this assignment largely orients the purpose and the result of this thesis, there are always some uncertainty as the human brain raises questions about the implementation of this project. In summary then, in this thesis developed an automated control and management system for the irrigation of a vineyard without the presence of man. The system collects information from special sensors and analyze the data based on some parameters that the user has defined. After this step, the system notifies the user about the results via short message services (SMS) and an Android application. If the user promptly gasp the system’s messages, he will be able to intervene remotely via the android app and activate or deactivate watering. In any other case that the user does not respond to system’s messages, then the system itself will take the initiative to watering automatically. For the construction of this device was used a computing platform of the Arduino family. A GSM shield necessary networking platform to the internet (as usually there is no possibility for Wi-Fi access in an arable land), a plurality of sensors, a solar panel for power supply and many other accessories that will gradually disclosed in the course of this thesis. This is because in addition to the financial benefit, Arduino is widespread platform with support by several applications and a large community to support it. This makes Arduino very scalable and even from third parties.
In order to program the Arduino we used Arduino IDE, an open source software of the Arduino Company in C/C++ language and for the Android application used the Eclipse of the same company writing in Java language. Finally, this work as will be presented and then consists of four main sections that refer to all technical and scientific areas that are essential to the non-paint reader be able to understand, monitor and evaluate all the content of the automated system and understanding the application fields.
Collections
The following license files are associated with this item:
This website uses cookies to ensure you get the best browsing experience.
Continue
More info