Agriculture plays a vital role within the lifetime of associate degree economy. It`s the backbone of our financial system. Agriculture not solely provides food and stuff however additionally employment opportunities to a really giant proportion of population. The manual assortment of information and human intervention within the field is labor intensive. Automation of information assortment at regular and frequent interval reduces labor demand and price. The aim of this work is introduce a system to gather field knowledge at regular and frequent interval and to scale back labor with the assistance of ESP 32.It is a IoT based system for effective assortment and method. The method is tested in the field considering various parameters. It works efficiently in all environmental condition and variation of parameters such as soil moisture, tempreture, humidity. This process is very economical and price effective crop yielding.

IoT, Automation, ESP32, Process all knowledge, Information transfer, cost effective, reduce labor

[1] Mehamed Ahmed Abdurrahman, Gebremedhn Mehari Gebru & Tsigabu Teame Bezabih, “Sensor Based Automatic Irrigation Management System”,in International Journal of Computer and Information Technology (ISSN: 2279 – 0764), Volume 04 – Issue 03, May 2015
[2] Pranita A. Bhosale, Prof. V. V. Dixit, “Water Saving-Irrigation Automatic Agricultural Controller”,in International Journal of Scientific and Technology Research, Volume 1, Issue 11, December 2012 (ISSN 2277-8616)
[3] J. Balendonck, A. Pardossi, H. Tuzel, Y. Tuzel, M. Rusan, F. Karam, “FLOW-AID – a Deficit Irrigation Management System using Soil Sensor Activated Control: Case Studies”, in The Third International Symposium on Soil Water Measurement Using Capacitance, Impedance and TDT 2010, Murcia, Spain), State of the Art, Paper 1.8
[4] H.T.Ingale, N.N.Kasat, “Automated Irrigation System”, International Journal of Engineering Research and Development”, e-ISSN: 2278- 067X, p-ISSN : 2278-800X, www.ijerd.com, Volume 4, Issue 11 (November 2012), PP. 51-54
[5] Robert Jensen(2009), “Information, Efficiency and Welfare in Agricultural Markets”, In the proceedings of the 27th International Association of Agricultural Economists Conference, Beijing, China, Aug 16 – 22, pp 1 – 29.
[6] Krishna Reddy and Ankaiah(2011), “A framework of information technology based agriculture information dissemination system to improve crop productivity”, In the proceedings of 32 nd Convention of Indian Agricultural Universities Association, Dec 13-14, Jorhat, Assam, India, pp. 437-459
[7] Jadhav and Shinde(2011), “Web Based Information System for Agriculture”, In International Journal of Innovative Technology and Creative Engineering, Vol 1, No.2, Feb 2011, pp 78-88
[8] Vidya Kumbhar(2009), “IT for sustainable agriculture development in India”, In the proc. of the 3rd National Conf. India-Com, Feb 26–27, New Delhi,India, pp. 94 – 98.
[9] Subba Rao(2011),“Indian Agriculture–Past Laurels & Future Challenges”, In the proceedings of 32 nd Convention of Indian Agricultural Universities Association, Dec 13-14, Jorhat, Assam, India,pp.58-77.
[10] Ovidiu Vermissan, Peter Friess(2013), “Internet of Things: Converging Technologies for Smart Environments and Integrated Ecosystems”, Rivers Publishers Series in Communications.
[11] D. Giusto, A. Iera, G. Morabito, L. Atzori (Editors - 2010), “The Internet of Things͟, Springer, 2010.
[12] C. Aggarwal, N. Ashish, and A. Sheth(2013), ͞The Internet of Things: A Survey from The Data-Centric Perspective͟, Book Chapter in "Managing and Mining Sensor Data", Springer.
[13] S. R. Nandurkar, V. R. Thool, R. C. Thool, “Design and Development of Precision Agriculture System Using Wireless Sensor Network”, IEEE International Conference on Automation, Control, Energy and Systems (ACES), 2014
[14] JoaquínGutiérrez, Juan Francisco Villa-Medina, Alejandra Nieto-Garibay, and Miguel Ángel Porta-Gándara, “Automated Irrigation System Using a Wireless Sensor Network and GPRS Module”,IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT, 0018-9456,2013 [15] Dr. V .Vidya Devi,G. Meena Kumari, “Real- Time Automation and Monitoring System for Modernized Agriculture” ,International Journal of Review and Research in Applied Sciences and Engineering (IJRRASE) Vol3 No.1. PP 7-12, 2013
[16] Y. Kim, R. Evans and W. Iversen, “Remote Sensing and Control of an Irrigation System Using a Distributed Wireless Sensor Network”, IEEE Transactions on Instrumentation and Measurement, pp. 1379–1387, 2008.
[17] Q. Wang, A. Terzis and A. Szalay, “A Novel Soil Measuring Wireless Sensor Network”, IEEE Transactions on Instrumentation and Measurement, pp. 412–415, 2010
[18] Yoo, S.; Kim, J.; Kim, T.; Ahn, S.; Sung, J.; Kim, D. A2S: Automated agriculture system based on WSN. In ISCE 2007. IEEEInternational Symposium on Consumer Ele ctronics, 2007, Irving,TX, USA, 2007
[19] Arampatzis, T.; Lygeros, J.; Manesis, S. A survey of applications of wireless sensors and Wireless Sensor Networks. In 2005 IEEE International Symposium on Intelligent Control & 13th Mediterranean Conference on Control and Automation. Limassol, Cyprus, 2005, 1-2, 719-724
[20] Orazio Mirabella and Michele Brischetto, 2011. “A Hybrid Wired/Wireless Networking Infrastructure for Greenhouse Management”, IEEE transactions on instrumentation and measurement, vol. 60, no. 2, pp 398-407.
[21] N. Kotamaki and S. Thessler and J. Koskiaho and A. O. Hannukkala and H. Huitu and T. Huttula and J. Havento and M. Jarvenpaa(2009). “Wireless in-situ sensor network for agriculture and water monitoring on a river basin scale in Southern Finland: evaluation from a data users perspective”. Sensors 4, 9: 2862-2883. doi:10.3390/s90402862 2009.
[22] Liu, H.; Meng, Z.; Cui, S. A wireless sensor network prototype for environmental monitoring in greenhouses. International Conference on Wireless Communications, Networking and Mobile Computing (WiCom 2007), Shangai, China; 21-25 September 2007.
[23] Baker, N. ZigBee and bluetooth - Strengths and weaknesses for industrial applications. Comput. Control. Eng. 2005, 16, 20-25.
[24] IEEE, Wireless medium access control (MAC) and physical layer (PHY) specifications for lowrate wireless personal area networks (LR-WPANs). In The Institute of Electrical and Electronics Engineers Inc.: New York, NY, USA, 2003