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International Journal of Engineering Technology and Management Sciences

2023, Volume 7 Issue 2

GREENHOUSE MONITORING AND CONTROL USING IOT

AUTHOR(S)

Deivaprasath.A, Arvind.D, Sanjay.M, Sunil Kumar.M, Muruganandham.J

DOI: https://doi.org/10.46647/ijetms.2023.v07i02.002

ABSTRACT
The population of the world has been increasing gradually in recent times. Under excessive climatic conditions, the plants can be grown with the help of Greenhouse. Green houses help to maintain the temperature within a limited range, used for cultivating plants out of season. The greenhouse control system is powered by ESP-WROOM 32 Wi-Fi Microcontroller and it consists of temperature and humidity sensor, soil moisture sensor, PIR sensor and MQ Gas sensor to monitor and the Incandescent Bulb, air blower and water pump to maintain the environmental conditions. Temperature and humidity sensor senses the level of temperature and moisture and send the bit signal to the controller, which controls the operation of the incandescent lamp to and blower. The moisture content in the soil is sensed with the help of Soil Moisture sensor and it controls the operation of water pump. PIR sensor is used to detect the movement of any organisms such as rodents and send the signal to the buzzer. The Air quality is sensed by the MQ2 Gas Sensor. The data sensed by the sensor is sent to the cloud through Wi-Fi and so that it can be monitored and controlled at any location using the laptop.

Page No: 9 - 14

References:

  1. Rooppahuja, H.K. verma, moinUddin. June 2013 “A Wireless Sensor Networks for Greenhouse Climate Control” IEEE CS on PERVASIVE computing.
  2. L. Dan, C. Xin, H. Chongwei, and J. Liangliang, "Intelligent Agriculture Greenhouse Environment Monitoring System Based on IOT Technology," in Intelligent Transportation, Big Data and Smart City (ICITBS), 2015 International Conference on, pp. 487- 490, 2015
  3. Liu Dan, Sun Jianmei, Yu Yang and Xiang Jianqiu, "Precise Agricultural Greenhouses Based on the IRT and Fuzzy Control",International Conference on Intelligent Transportation, Big Data &Smart City (ICITBS) 2016.
  4. Vimal, P. V., and Shivaprakasha, K. S. (2017), “IOT based greenhouse environment monitoring and controlling system using Arduino platform”, IEEE International Conference on Intelligent Computing, Instrumentation and Control Technologies (ICICICT), pp. 1514- 1519.
  5. Neel P.Shah, and Priyang P. Bhatt, “Greenhouse Automation and Monitoring System Design and Implementation”, International Journal of Advanced Research in Computer Science (IJARCS), Vol 8, Issue 9,2017.
  6. Zaidon Faisal Shenan, Ali Fadhil Marhoon, and Abbas A. Jasim, “IoT based intelligent greenhouse monitoring and control system”, Basrah Journal for Engineering Science (2017), Vol. 17(1), pp. 61-69.
  7. Mohammadibrahim Korti; Basavaraj S. Malapur; Smita Gour; Rajesh M. Biradar. "Shuchi 1.0: Robotic System For Automatic Segregation of Waste & Floor Cleaning". International Research Journal on Advanced Science Hub, 4, 02, 2022, 31-37. doi: 10.47392/irjash.2022.007
  8. Rupali Satpute, Hemant Gaikwad, Shoaib Khan, Aaditya Inamdar and Deep Dave, “IOT Based Greenhouse Monitoring System”, International Journal for Research in Applied Science & Engineering Technology (IJRASET), Volume 6 Issue IV, April 2018.
  9. Jayaty, Dhruv Binani and Mrs. S. Nagadevi, “IoT Based Polyhouse Monitoring and Control System”, International Journal of Pure and Applied Mathematics, Volume 118, No. 20, 2018, pp. 4261-4265.
  10. Dhanalakshmi M.; Radha V.. "Vehicular Air Purifier – IoT Enabled System with Artificial Intelligence to Prevent Air Pollution". International Research Journal on Advanced Science Hub, 3, Special Issue 7S, 2021, 74-78. doi: 10.47392/irjash.2021.213
  11. Dattatraya Shinde and Naseem Siddiqui, "IOT Based environment change monitoring & controlling in greenhouse using WSN", In Proceedings of the 2018 International Conference on Information.
  12. H. Huang, H. Bian, S. Zhu and J. Jin, "A Greenhouse Remote Monitoring System Based on GSM", 2011 International Conference on Information Management, Innovation Management and Industrial Engineering, Shenzhen, 2011, pp. 357-360.doi: 10.1109/ICIII.2011.231.
  13.  L. Farhan, S. T. Shukur, A. E. Alissa, M. Alrweg, U. Raza and R. Kharel, "A survey on the challenges and opportunities of the Internet of Things (IoT)", 2017 Eleventh International Conference on Sensing Technology (ICST), Sydney, Australia, 2017, pp. 1- 5.doi: 10.1109/ICSensT.2017.8304465
  14.  Remya Koshy , “Greenhouse monitoring and controlling based on iot using wsn”, ITSI Transactions on Electrical and Electronics Engineering (ITSI-TEEE) ISSN (PRINT) : 2320 – 8945, Volume -4, Issue -3, 2016.
  15. Akash1, Amit Birwal ,“ IoT-based Temperature and Humidity Monitoring System for Agriculture”, International Journal of Innovative Research in Science,Engineering and Technology Vol. 6, Issue 7, July 2017ISSN(Online): 2319-8753.
  16. L. Coetzee and J. Eksteen, "The Internet of Things promise for the future? An introduction," in IST-Africa Conference Proceedings, 2011, pp. 1-9, 2011.
  17. J.-c. Zhao, J.-f. Zhang, Y. Feng, and J.-x. Guo, "The study and application of the IOT technology in agriculture," in Computer Science and Information Technology (ICCSIT), 2010 3rd IEEE International Conference on, pp. 462-465, 2010.

How to Cite This Article:
Deivaprasath.A, Arvind.D, Sanjay.M, Sunil Kumar.M, Muruganandham.J . GREENHOUSE MONITORING AND CONTROL USING IOT . ijetms;7(2):9-14. DOI: 10.46647/ijetms.2023.v07i02.002

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