Authors:
P. Ramchandar Rao,V. Ravi,S. Sanjay Kumar,Ch. Rajendra Prasad,Shyamsunder Merugu,DOI NO:
https://doi.org/10.26782/jmcms.2020.06.00023Keywords:
ESP32,Temperature and Humidity Sensor (DHT11),Gas Sensor,Buzzer,Light Dependent Resistor (LDR),Thing Speak,Abstract
The objective of this paper is to monitor and control the environmental conditions for proper food grain repository. We have implemented a monitoring and controlling system that monitors and controls the weather parameters like Temperature, Humidity, Gas and Light intensity. The users can control and monitor the above said parameters of the repository using IOT. These sensor values are sent to the cloud. When these values get exceeded by the threshold values then the user can take an action against the conditions. By using of Thingspeak to retrieve the cloud sensor data is monitored and controlled.Refference:
I. Deepak, N., Rajendra Prasad, C., & Sanjay Kumar, S. (2018). “Patient health monitoring using IOT”, International Journal of Innovative Technology and Exploring Engineering, 8(2), 454–457. https://doi.org/10.4018/978-1-5225-8021-8.ch002.
II. Kannamma, M. &Baskar, Chanthini & Manivannan, D.. (2013). Controlling and monitoring process in industrial automation using Zigbee, pp:806-810. 10.1109/ICACCI.2013.6637279.
III. Mukesh. K and Ch. Rajendra Prasad, “Web Based Monitoring System for Nuclear Power Plant” International Journal of research and Applications July –September 2015 Transactions 2(7): 346-350(ISSN: 2394-4544), Volume 2 Issue 7. DOI: 10.17812/IJRA.2.7(59)2015.
IV. Prasad, C. R., & Bojja, P. (2020), “The energy-aware hybrid routing protocol in WBBSNs for IoT framework”, International Journal of Advanced Science and Technology, Volume-29, Issue-4, pp:1020–1028.
V. Pravalika, V., & Rajendra Prasad, C. (2019), “Internet of things based home monitoring and device control using Esp32”. International Journal of Recent Technology and Engineering, 8 (1 Special Issue 4), 58–62.
VI. Priyanka D., et.al, “Smart Food Quality Testing and Ordering System Using at Mega328 in Restaurants”, International Journal of Scientific Research and Engineering Development,Volume-3, Issues-1, Jan- Feb, 2020, pp: 645-650.
VII. Ramchandar Rao, P., Srinivas, S., & Ramesh, E. (2019). A report on designing of wireless sensor networks for IoT applications”, International Journal of Engineering and Advanced Technology, Volume-8, Issue-3, 2005-09, https://doi.org/10.35940/ ijeat.F1236.0986S319.
VIII. Sanjay Kumar, S., Ramchandar Rao, P., &Rajendra Prasad, C. (2019), “Internet of things based pollution tracking and alerting system”, International Journal of Innovative Technology and Exploring Engineering, volume-8, issue-8, pp: 2242–2245.
IX. Shreyas S K, Shridhar Katgar, Manjunath Ramaji, Yallaling Goudar, Ramya Srikanteswara, “Efficient Food Storage Using Sensors, Android and IoT”, International Journal Of Advanced Research in Basic Engineering Sciences and Technology (IJARBEST), Volume-3,Special Issue-23, April 2017, pp.8-12.
X. Suryawanshi VS &Kumbhar MS, “Real Time Monitoring & Controlling System for Food Grain Storage”, International Journal of Innovative Research in Science, Engineering and Technology, Volume-3, 2014, pp:734-738.
XI. TSGC, Tri-States Grain Conditioning, Inc., “Grain Temperature Monitoring Systems” www.tsgcinc.com
XII. Verdouw, Cor & Wolfert, Sjaak & Beulens, Adrie & Rialland, Agathe. (2015). Virtualization of food supply chains with the internet of things. Journal of Food Engineering. 176. 10.1016/j.jfoodeng.2015.11.009.
XIII. Vinayaka H, Roopa J “Intelligent System for Monitoring and Controlling Grain Condition Based on ARM 7 Processor”, India International Journal of Latest Technology in Engineering, Management & Applied Science (IJLTEMAS),Volume-5, Issue-7, July 2016, pp:6-10, ISSN 2278-2540