The most important and respected vocation in India is agriculture. The bulk of Indians from rural origins make their living mostly from agriculture. Intelligent irrigation contributes to the development of an agricultural nation. India's agricultural sector contributes roughly 16% of the nation's GDP and 10% of all exports. Water is a vital component of agriculture. Water is the main resource used in agriculture. Among the ways to supply water is by irrigation. People are squandering more water during this irrigation process since they are missing the time. Thus, we have a great technique called
the Smart Irrigation System Using IOT [Internet of Things] to save water and time. A smart system that uses automation, internet connectivity, and sensors to irrigate plants automatically is known as an Internet of Things (IoT)-based automated
irrigation system. The system uses a machine learning algorithm to analyze data collected from many sensors, including temperature, humidity, and soil moisture. The analysis is then used to control the irrigation process. The user can establish
the irrigation schedule and modify the irrigation settings of the system using a web interface or a mobile app. An efficient and practical technique to automate irrigation, cut down on water waste, increase crop productivity, and enable remote monitoring is through the use of smart irrigation systems.
[1] Koutroulis, A.G. Papadimitriou, L.V., Grillakis, M.G.; Tsanis, I.K.; Wyser, K.; Betts, R.A.“Freshwater vulnerability
under high-end climate change. A pan- European assessment”. Sci. Total Environ. 2018, 613, 271–286.
[2] Iglesias, A. Santillán, D. Garrote, L. “On the barriers to adaption to less water under climate change: Policy choices
in Mediterranean countries” Water Resour. Manag. 2018, 32, 4819–4832.
[3] Yahide, P.B.; Jain, S.A. Giri, M. “Survey on the web-based intelligent irrigation system in wireless sensor network”
Multidiscip. J. Res. Eng. Technol. 2015, 2, 375–385.
[4] Patokar, A.M. Gohokar, V.V., “Precision agriculture system design using a wireless sensor network. In Information
and Communication Technology” Springer: Singapore, 2017.
[5] L. Hamami and B. Nassereddine, “Application of wireless sensor networks in the field of irrigation: A review,
Computers, and Electronics in Agriculture”, 2020, vol. 179, p. 105782.
[6] S. Velmurugan, “An IoT-based smart irrigation system using soil moisture and weather prediction,” 2020.
[7] K. Lakhwani, H. Gianey, N. Agarwal, and S. Gupta, “Development of IoT for smart agriculture a review, in
Emerging trends in expert applications and security.” Springer, 2019, pp. 425–432.
[8] X. Yang, L. Shu, J. Chen, M. A. Ferrag, J. Wu, E. Nurellari, and K. Huang, “A survey on smart agriculture:
Development modes, technologies, and security and privacy challenges”, IEEE/CAA Journal of Automatica Sinica,
2021, vol. 8, no. 2, pp. 273–302.
[9] R. Koech and P. Langat, “Improving irrigation water use efficiency: A review of advances, challenges and
opportunities in the Australian context” Water, 2018, vol. 10, no. 12, p. 1771.
[10] M. Farooq, M. Hussain, S. Ul-Allah, and K. H. Siddique, “Physiological and agronomic approaches for improving
water-use efficiency in crop plants”, Agricultural Water Management, 2019, vol. 219, pp. 95–108.
