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Avtonomni zalivalni sistem
ID Hostnik, Jan (Author), ID Klančar, Gregor (Mentor) More about this mentor... This link opens in a new window

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Abstract
V diplomski nalogi je predstavljena izdelava avtonomnega zalivalnega sistema, ki je namenjen uporabi za manjše vrtove. Razviti sistem predvideva dva načina zalivanja, ki sta prilagojena specifikam tople grede in vrta. Algoritem se glede na večkrat dnevno izmerjene vrednosti temperature, vlage zemlje, vlage zraka in osvetljenosti odloči ali bo vrt v naslednjih jutranjih urah zaliv ali ne. Na začetku je predstavljen mikrokrmilnik Arduino in strojna oprema našega sistema. V osrednjem delu je opisan razvoj izdelka in koraki po katerih sem izdeloval avtonomni zalivalni sistem. Predstavljeni so tudi izračuni dnevne porabe električne energije razvitega sistema in meritve štirih spremenljivk, ki so ključne pri končnem algoritmu odločanja. Podrobneje je razloženo delovanje algoritma in izvedba s programsko kodo, ki sta ključna dela diplomske naloge. V zaključku so povzete lastnosti razvitega sistema in nakazane so možne izboljšave.

Language:Slovenian
Keywords:zalivalni sistem, mikrokrmilnik, Arduino UNO, algoritem odločanja, krmiljenje
Work type:Bachelor thesis/paper
Organization:FE - Faculty of Electrical Engineering
Year:2019
PID:20.500.12556/RUL-113300 This link opens in a new window
Publication date in RUL:19.12.2019
Views:2848
Downloads:383
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Secondary language

Language:English
Title:Autonomous irrigation system
Abstract:
In this thesis I present the development of autonomous watering system that can be used in small gardens. The developed system operates in two watering modes which are adapted to the requirements of a garden and a greenhouse application. The algorithm decides to water the garden on the next morning based on the measured values of temperature, soil moisture, air moisture and sunlight, captured several times in the previous day. In the beginning of my thesis I introduce the Arduino microcontroller and our system hardware. In the middle part I describe the development of the product and steps required to implement the autonomous watering system. I also present the calculation of the daily electrical energy requirement of the system and measurements of four main variables used in the decision making algorithm. I explain in more details the operation of the algorithm and the program code which is essential part of my thesis. In conclusion I summarise properties of the developed system and presented the potential improvements of the system.

Keywords:watering system, microcontroller, Arduino UNO, decision algorithm, control

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