Solar-Powered Smart Irrigation System with Cloud Integration
Keywords:
Solar Energy, photovoltaic, Arduino, soil moisture, RelayAbstract
Every engineering and non-engineering organization, be it a start-up organization or a multinational company, is dealing with IoT and automation. Today, all things are associated with the Internet, and all the latest products come with Internet connectivity as a standard instead of an optional feature. This system can be used at home, in the garden, or on a remote farm. It is designed to control and monitor the irrigation where the operator or owner cannot be on the farm. This work consists of different parts. The photovoltaic panel will initially transform the power. The power analyzer continuously tracks the power transferred and reports its findings to the Arduino board. Second, the solar tracking system incorporates light-dependent resistors as the controller's input to determine the direction of the greatest amount of sunlight, and the motor's output will mechanically rotate the solar cell in that direction. Thirdly, the irrigation system comprises the sensor, which measures soil moisture and transmits the reading to the controller; the water pump, which responds to Arduino commands by turning on or off; and last, the user-to-system communication channel, which is the IOT cloud on the Wi-Fi network. The mobile application has three gauges that display the voltage cell and power cell. Also, for user convenience and comfort, a dedicated gauge will display the soil moisture level. If the automatic option is used, the appropriate level of soil moisture can be specified using the soil moisture slider on the application.
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I. S. B. A. A. W. A. M. Safdar Munir, "Intelligent and Smart Irrigation System Using Edge Computing and IoT", Hindawi, pp. 16, 2021.
C.J Vincent, A.R. Supate and N.S. Desai, "Efficient wastewater management for sustainable development: challenges and prospects an Indian scenario", Europe, vol. 52, no. 30.512, pp. 1-384, 2017
L. Kamelia, M.A Ramdhani, A. Faroqi, and V. Rifadiapriyana, "Implementation of automation system for humidity monitoring and irrigation system", Proc. IOP Conf. Series: Mat. Sci. Eng., vol. 288, no. 1, pp. 012092, 2018.
S. Rawal, "IOT based smart irrigation system", Int. J. Comput. App., vol. 159, no. 8, pp. 7-11, Feb. 2017.
Geoffrey, G., Dieu, M. , Pierre, N. and Aimable, T. (2015) Design of Automatic Irrigation System for Small Farmers in Rwanda. Agricultural Sciences, 6, 291-294. doi 10.4236/as.2015.63029.
S. Babaa, M. Armstrong, "Novel control strategy for photovoltaic systems based on irradiation” in International Renewable Energy Congress (IREC 2017), 8th IEEE International Conference.
B. Keswani, A.G. Mohapatra, A. Mohanty, A. Khanna, J.J. Rodrigues, D. Gupta, et al., "Adapting weather conditions based IoT enabled smart irrigation technique in precision agriculture mechanisms", Neural Computing and Applications, vol. 31, no. 1, pp. 277-292, Jan. 2019.
M.M.I Tusher, M.Z Haque, M.J. Uddin, A. Mainuddin, M.E. Hoque and M.M.U. Talukder, "Solar-based automatic irrigation system with GSM module", Proc. Int. Conf. Sustain. Tech. Ind. 4.0, pp. 1-5, Dec. 2019.
S.C. Mungale, M. Sankar, D. Khot, R. Parvathi and D.N. Mudgal, "An efficient smart irrigation system for the solar system by using PIC and GSM", Proc. Int. Conf. Inventive Comput. Tech., pp. 973-976, Feb. 2020.
Kshirod Kumar Rout, Samuchita Mallick, and Sivkumar Mishra, "Design and Implementation of an Internet of Things based Prototype for Smart Home Automation Network", International Conference on Recent Innovations in Electrical Electronics and Communication Engineering ICRIEECE, July-2018.
Srishti Rawal, “IOT based Smart Irrigation System” International Journal of Computer Applications (0975 – 8887) Volume 159 – No 8, February 2017.
The 8051 Microcontroller and Embedded Systems Using Assembly and C - Muhammad Ali Mazidi
Smajstrla, A.G.; Locascio, S.J. 1996. Tensiometer- controlled drip irrigation scheduling of tomato.
Ogidan, O, Onile, A. and Adegboro, O. (2019) Smart Irrigation System: A Water Management Procedure. Agricultural Sciences, 25-31. doi 10.4236/as.2019.101003.
S. Babaa, M. Armstrong, "High efficient interleaved boost converter with novel switch adaptive control in photovoltaic systems” in Power Electronics, Drive Systems, and technologies (PEDSTC 2017), 8th IEEE International Conference.
Babaa, S. “Novel Switch Adaptive Control to Improve the Efficiency of Boost Converter in Photovoltaic Systems”. Journal of Power and Energy Engineering, 5,1-14. 2017. doi: 10.4236/jpee.2017.57001
D S Rahul, S K Sudarshan, K Meghana, K N Nandan, R Kirthana and Pallaviram Sure, "IoT based Solar Powered Agribot for Irrigation and Farm Monitoring Agribot for Irrigation and Farm Monitoring", Proceedings of the Second International Conference on Inventive Systems and Control (ICISC 2018).
R. Nageswara Rao and B. Sridhar, "IoT-based smart crop-field monitoring and automation irrigation system", International Conference on Inventive Systems and Control (ICISC), 2018.
Babaa, S, Murr, G., Mohamed, F. and Pamuri, S. “Overview of Boost Converters for Photovoltaic Systems”. Journal of Power and Energy Engineering, 6, 16-31. 2018, doi: 10.4236/jpee.2018.64002.
Al-Mashakbeh, H. (2017) The Influence of Lithostratigraphy on the Type and Quality of Stored Water in Mujib Reservoir-Jordan. Journal of Environmental Protection, 568-590. doi: 10.4236/jep.2017.84038.
Alkarrami, F, Iqbal, T., Pope, K. and Rideout, G. (2020) Dynamic Modelling of Submersible Pump Based Solar Water-Pumping System with Three-Phase Induction Motor Using MATLAB. Journal of Power and Energy Engineering, 20-64. doi 10.4236/jpee.2020.82002.
M. A. B. S. O. Saleh ElkelaniBabaa, "Smart Irrigation System using Arduino with Solar Power", International Journal of Engineering Research & Technology (IJERT), vol. 9, no. 05, pp. 7, May 2020.
Stojanovic, N. . (2020). Deep Learning Technique-Based 3d Lung Image-Based Tumor Detection Using segmentation and Classification. Research Journal of Computer Systems and Engineering, 1(2), 13:19. Retrieved from https://technicaljournals.org/RJCSE/index.php/journal/article/view/6
Ms. Sweta Minj. (2012). Design and Analysis of Class-E Power Amplifier for Wired & Wireless Systems. International Journal of New Practices in Management and Engineering, 1(04), 07 - 13. Retrieved from http://ijnpme.org/index.php/IJNPME/article/view/9
Kumbhkar, M., Shukla, P., Singh, Y., Sangia, R. A., & Dhabliya, D. (2023). Dimensional reduction method based on big data techniques for large scale data. Paper presented at the 2023 IEEE International Conference on Integrated Circuits and Communication Systems, ICICACS 2023, doi:10.1109/ICICACS57338.2023.10100261 Retrieved from www.scopus.com
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