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| Paper Title |
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Solar power based automatic irrigation system |
| Author Name |
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Praveena K S, Bhargavi K, Sahana M S, Bhanu H S and Tejaswini S |
| Abstract |
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In recent days, the scarcity of power and water has become a major challenge in the field of agriculture. The traditional techniques used in agriculture are still needed major improvements in the direction of multitasking on many concerns like observing the water level periodically, natural resource utilization, and soil health analysis. In this paper, an automatic irrigation system based on the Internet of Things (IoT), solar power, sensors, and the embedded controller is implemented. The smart irrigation system proposed here is to support people who are involved in agriculture in terms of effective utilization of natural resources like solar energy and water resource. By using smart irrigation systems people can overcome the problems of scarcity of electricity and water wastage. The proposed design is found to be effective and efficient for the small irrigation areas. |
| Keywords |
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IoT, Moisture sensor, Rain sensor, Microcontroller, LDR, Irrigation system. |
| Cite this article |
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Praveena KS, Bhargavi K, Sahana MS, Bhanu HS, Tejaswini S. Solar power based automatic irrigation system. International Journal of Advanced Computer Research. 2021; 11(54):61-66. DOI:10.19101/IJACR.2021.1152013. |
| References |
: |
|
[1]Alomar B, Alazzam A. A smart irrigation system using IoT and fuzzy logic controller. In information technology trends (ITT) 2018 (pp. 175-9). IEEE.
|
| [Crossref] |
[Google Scholar] |
|
[2]Harishankar S, Kumar RS, Sudharsan KP, Vignesh U, Viveknath T. Solar powered smart irrigation system. Advance in Electronic and Electric Engineering. 2014; 4(4):341-6.
|
| [Google Scholar] |
|
[3]Eragamreddy G, Sree KR. Solar powered auto watering system for irrigation using embedded controller. In international conference on energy, communication, data analytics and soft computing 2017 (pp. 2424-8). IEEE.
|
| [Crossref] |
[Google Scholar] |
|
[4]Dutta PK, Mallikarjuna K, Satish A. Sensor based solar tracker system using electronic circuits for moisture detection and auto-irrigation. In international conference on power, control, signals and instrumentation engineering 2017 (pp. 1475-8). IEEE.
|
| [Crossref] |
[Google Scholar] |
|
[5]Pernapati K. IoT based low cost smart irrigation system. In second international conference on inventive communication and computational technologies 2018 (pp. 1312-5). IEEE.
|
| [Crossref] |
[Google Scholar] |
|
[6]Megalingam RK, Gedela VV. Solar powered automated water pumping system for eco-friendly irrigation. In international conference on inventive computing and informatics 2017 (pp. 623-6). IEEE.
|
| [Crossref] |
[Google Scholar] |
|
[7]Naik RC, Bhat R, Nagaraj NM, KS P, Student UG. Voice based self assisting robot using firebird V. Themed Section: Engineering and Technology. 2019; 6(2):516-243.
|
| [Crossref] |
[Google Scholar] |
|
[8]Jain P, Kumar P, Palwalia DK. Irrigation management system with micro-controller application. In international conference on electronics, materials engineering and nano-technology 2017 (pp. 1-6). IEEE.
|
| [Crossref] |
[Google Scholar] |
|
[9]Krishna MH, Manmadharao S. Grid integrated solar irrigation system by using BLDC motor pump set. In international conference on inventive research in computing applications 2018 (pp. 1261-4). IEEE.
|
| [Crossref] |
[Google Scholar] |
|
