SMART INDOOR VERTICAL FARMING MONITORING USING IoT
Keywords:
Urban gardening, GSM, indoor vertical farming, Android app, food production, Internet of things (IoT)Abstract
The population of the world is expected to reach around 9.7 billion by the end of the year 2050. Currently, around 56% of the world‟s population lives in the urban areas, putting a lot of pressure on the maintenance of the air quality and the greenery in these areas. But the issue is that there is lack of space for cultivation in urban areas where urban gardening comes into picture. Human labour is involved in traditional methods of monitoring and farming and is it is time consuming. Vertical farming is the practice of growing plants in the vertically inclined surfaces or in vertically stacked layers. Here, plants are grown in a controlled environment. The proposed system uses the concepts of artificial photosynthesis, vertical and zone-wise crops production and the Internet of Things. This increases the productivity. By using the various sensor networks, the environmental parameters can be noted. The retrieved data is stored and displayed on a customized webpage which can be accessed through mobile app. Thus, the indoor vertical farm can be monitored and controlled even without direct presence of the cultivator at the plant environment. The variations in the individual sensor‟s data with respect to time can be graphically plotted for the improved analysis and monitoring of the system. Increasing population demands increase in food production by the next decade. Internet of things is implemented in vertical and indoor farming to establish a smart way of cultivation. Basic functions like monitoring the soil moisture, temperature, humidity are performed. Artificial photosynthesis for the plants using grow-lamps and drip irrigation is implemented to maintain the urban gardens. Using GSM technology systematic alerts regarding the status of garden to the user at regular intervals of time is delivered. An android app interface is also implemented in the proposed system to remotely control the garden functioning hence enhancing the smart way of agriculture.
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Thenmozhi, S., Sudharsan R, Dhivya M.M., and Nirmalakumari K., "Greenhouse Management Using Embedded System and Zigbee Technology." International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, India, Vol. 3, Issue 2, pp. 2320-3760, February 2014.
Shah, AFM Shahen, and M. Shariful Islam. "Solar Powered Automatic Drip Irrigation System (SPADIS) using Wireless Sensor Network Technology " International Research Journal of Engineering and Technology (IRJET) Bangalore, India, pp. 66-78, July 2017.
Patel, Nidhi, Hiren Kathiriya, and Arjav Bavarva. "Wireles ensor Network using Zigbee." International Journal of Research in Engineering Technology, Gujarat, India, Vol. 02, Issue: 06 pp. 1038-1042, Jun-2013.
Rashmi Maria Royston1, Pavithra M.P "Vertical Farming: A Concept”, International Journal of Engineering and Techniques, May 2018.
C. Balachandar, "Vertical farm buildings." Sameeksha 2014 – CEvolution July 2014.
Elhawary1, Mohamed2, and Zygmunt J. Haas3. "Energy efficient protocol for cooperative networks”, IEEE or ACM Transactions on Networking, Vol.19 No..2, pp. 560-580, April 2011.
Satyam Kumar Sinha1, Bhupendra Singh2, Aashish Kumar Gupta3 " IOT Based Smart Garden Monitoring System." International Journal of Scientific & Engineering Research Volume 8 Issue 10, October-2017.
Sanjay Kumawat1, Mayur Bhamare2, Apurva Nagare3 , Ashwini Kapadnis4 " Sensor Based Automatic Irrigation System and Soil pH Detection using Image Processing. ", International Research Journal of Engineering and Technology April-2017.
Mohammed, Sirwan A. "design of wireless network based on NS2." Journal of Global Research in Computer Science, Vol. 3 No.12 pp.1-7, December 2012.
Gautam1, Genita2, and Biswaraj Sen3. "Design and Simulation of Wireless Sensor Network in NS2." International Journal of Computer Applications, Sikkim, Vol. 113 ,March 2015.
Arul Jai Singh.S, Raviram.P, Shanthosh Kumar.K. “Embedded based greenhouse monitoring system using PIC microcontroller”,IEEE Trans syst, Man, Cybern .A,Systems and Humans, vol 41, no.6, pp November 2011.
Dr. S. Saraswathi, P. Manibharathy, R.Gokulnath, E.Sureshkumar, K.Karthikeyan “Automation of Hydrophonics using IOT”, IEEE International conference 2018.
Aji Hanggoro Rizki1, Reynaldo, Mahesa Adhitya Putra, Riri Fitri Sari, “Greenhouse monitoring and controlling using mobile application”, IEEE International conference 2013.
M.N. Swarna latha Siva V Girish Balaji Ganesh A, “Cooperative Communication Enabled Wireless Sensor Network For Monitoring Green House”, ICACCCT, November -2016.
Aju G Nair1, Akhil Chacko2, Ganga Mohan, Tony K Francis, “Smart vertical farming using Hydrophonics”, IOSR journal, April-2017.
Snehasish Dutta Gupta, Avinash Agarwal, “Artificial Lighting System for Plant Growth and Development- Chronological Advancement, Working Principles, and Comparative Assessment” , “Light Emitting Diodes for Agriculture: Smart Lighting” Journal, pp 1-25, October 2017.
Rashmi Maria Royston, PavithraM.P “Vertical farming: A concept”, International Journal of Engineering and Techniques - Volume 4,3rd Issue , May 2018.
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