IJARSCT ISSN (Online) 2581-9429 International Journal of Advanced Research in Science, Communication and Technology (IJARSCT) Volume 3, Issue 1, April 2023 Copyright to IJARSCT DOI: 10.48175/568 471 www.ijarsct.co.in Impact Factor: 7.301 Smart Electromagnetic Valve-Based Irrigation System Prof. Pallavi Mankar 1 , Dhiraj Ganvir 2 , Govind Sawarkar 3 , Mayur Kalbende 4 , Prajwal Lende 5 , Pratik Jumle 6 , Ujwal Khairkar 7 Assistant Professor, Department of Electrical Engineering 1 Students, Department of Electrical Engineering 2,3,4,5,6,7 P. R. Pote Patil College of Engineering & Management, Amravati, Maharashtra, India Abstract: IoT and Remote Detecting Innovation are generally utilized wherever in the current logical world. As the innovation is developing and evolving quickly, Remote detecting Organization (WSN) serves to update the innovation. In the examination field of remote sensor networks, the power effective time is a significant issue. The answer to this issue can be tackled by utilizing the LoRaWAN innovation with IoT. The fundamental thought of this is to grasp how information goes through a remote medium transmission utilizing remote sensor organization and checking framework. This paper plans a water system framework that is robotized by utilizing controllable boundary soil dampness on the grounds that they are the significant elements to be controlled in Dad (Accuracy Horticulture). Keywords: IOT Technology, Sensor Technology, Drip irrigation I. INTRODUCTION With the development of the world, the health monitoring system in India is a developing and agriculture-based country. 1/3 of the rain is falling in our country. Day by day manpower availability for farming is lacking. To introduce a new range of technologies and fuel more development on underdeveloped or new technologies for making India develop. Due to this problem, farmers face a lot of issues. Therefore, it is very difficult for an average farmer to gain information regarding soil and weather is good for crop production or not. Due to very poor water management and not much scientific development is happened in agriculture, our contribution is on using IOT for Smart Irrigation Systems with LoRaWAN technology. Smart electromagnetic valve-based irrigation system. Through the LoRaWAN communication, we can access up to 120 devices. It is a full-duplex communication-supported device. This proposed system ‘automatic irrigation using LoRaWAN’ helps to understand the soil and humidity conditions that are ideal for irrigation. A sensor is deployed, which gives information about moisture and humidity content in the different soil. The sensed data are transmitted to the control station LoRaWAN. II. LITERATURE REVIEW Maksudjon Usmonov and Francesco Gregoretti, in this paper, the solution using LoRa technology for cost-effective wireless control of drip irrigation systems has been presented. The system which utilizes LoRa modules to establish reliable radio links has been designed and a customized data transfer protocol that stratifies the requirements has been deployed. It is shown that this solution has advantages over the existing LORAWAN protocol in terms of cost complexity for this specific application. Wenjo Zhao, Shengwie Lie, Jiwen Han, Rongtao Xu, and Lu Hao, this paper proposes a smart irrigation system based on LoRa technology. In order to validate the excellent execution of the proposed irrigation system, experiments have been carried out. Exploratory outcomes approve the materialness of the proposed framework. Simultaneously, the benefits of LoRa innovation received in the keen water system framework have appeared through tests. The system proposed by us facilitates more efficiency and also minimizes the cost of deployment and maintenance. According to the experimental results, the irrigation node equipped with a hydroelectric generator can operate for decades. The communication distance between the irrigation node and gateway is up to 8 , thus the irrigation system can cover up to 200 hectares. By mobile App, users can control the irrigation system remotely and check the status of the system in