Volume- 3
Issue- 3
Year- 2015
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Mr.D.D.Chaudhary , Suraj.V.Shinde
Advanced technological development in wireless sensor network made it possible to use it in monitoring and control of Greenhouse parameters. In this paper, my aim is to develop a central monitoring and control system for the Greenhouses to predict and act on situations for perfectly controlled climatic conditions. This can be managed from one control station wirelessly using GSM module. Only user from remote location can select the crop from system database and all related readings of that particular would be selected from the system database and sent through GSM to the selected Greenhouse controller. Multiple crops readings like temperature, humidity, moisture, etc. are suitable for that particular crop can be set from the central unit and sent to controller through GSM module. By comparing monitored readings with database readings we get the idea to turn on/off the irrigation motor. So, we can give water to the Greenhouse field properly if required otherwise water and power will be saved. This encouraged to farmer to increase growth of crop yield and production with higher quality as well as quantity with reduced cost. Another interesting point in my paper is that it has a systematic architecture which can be applied for small/medium Greenhouse applications.
[1] Kudang B. Seminar, Henry Suhardiyanto, Socdodo Hardjoamidjojo, Tamrin, “A supervisory Control System for Greenhouse,” Regional Computer Science Postgraduate Conference (RECSPC), 2006.
[2] D.D. Chaudhary, S.P. Nayse, L.M. Waghmare,” Application of wireless sensor networks for Greenhouse parameter control in Precision Agriculture,” International Journal of Wireless & Mobile Networks (IJWMN) Vol. 3, No. 1, February 2011.
[3] Mahmoud Omid, “A computer-Based Monitoring System to Maintain Optimum Air Temperature and Relative Humidity in Greenhouses,” International Journal of Agriculture and Biology, 2004. .
[4] Marco Mancuso, Franco Bustafa, “A wireless sensors network for monitoring environmental variables in a tomato greenhouse,” IEEE International Workshop on Factory Communication Systems, 2006.
[5] Jay S. Sharma, Gautam D. Makwana,” Intelligent Crop Management System for Greenhouse Environment,” International Journal of Science and Research (IJSR), Vol. 2 Issue 4, April 2013.
[6] Mahmoud Shaker, Ala'a Imran, “Greenhouse Micro Climate Monitoring Based On WSN with Smart Irrigation Technique” International Journal of Electrical, Robotics, Electronics and Communications Engineering Vol:7 No:12, 2013.
[7] Mr. Dhananjay E. Upasani, Mr. Sandip B. Shrote, Ms.Vrushali P. Wani,” FPGA Implementation of Intelligent Climate control for management,” 2010 International Journal of Computer Applications Vol.1, No. 18, 2010.
[8] M. Dinesh, P. Saravanan,” FPGA Based Real Time Monitoring System for Agricultural Field,” International Journal of Electronics and Computer Science Engineering Vol: 1 No: 3, 2000.
[9]K. Nirmal Kumar, P. Ranjith, R. Prabakaran,” Real Time Paddy Crop Field Monitoring Using Zigbee Network,” Proceedings of ICETECT 2011.
[10] Omveer, Dr. H.K. Singh, Rishikesh Patankar, Sandeep Bansal, Gaurav Kant Yadav,” A Survey on Wireless Sensor Network based Technologies for Precision Agriculture System, International open access Journal of Modern Engineering Research (IJMER), Vol. 4 Iss.7 July. 2014
Department of Electronics and Telecommunication, Sinhgad Institute of Technology, Lonavala, India, +919372810161,
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Prof.(Ms.).S.S.Desai, Ms.Sayali Maruti Jadhav, Ms.Priya Shivaji Patil.
March 2017 - Vol 5, Issue 2
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March 2015 - Vol 3, Issue 2