IJARSCT

ISSN (Online) 2581-9429

International Journal of Advanced Research in Science, Communication and Technology (IJARSCT) Volume 6, Issue 2, June 2021

Copyright to IJARSCT DOI: 10.48175/IJARSCT-1536 1106 www.ijarsct.co.in

Impact Factor: 4.819

IoT Based Air Quality Monitoring System

Mr. Nitin V. Bansod¹ and Prof. U.W. Hore²

PG Student, Master of Engineering, Department of Electronics and Telecommunication¹ Assistant Professor, Department of Electronics and telecommunication² P. R. Pote College of Engineering and Management Amravati, Maharastra, India

Abstract: A remote online carbon dioxide (CO2) concentration monitoring system is developed, based on the technologies of wireless sensor networks, in allusion to the gas leakage monitoring requirement for CO2 capture and storage. The remote online CO2 monitoring system consists of monitoring equipment, a data center server, and the clients. The monitoring equipment is composed of a central processing unit (CPU), air environment sensors array, global positioning system (GPS) receiver module, secure digital memory card (SD) storage module, liquid crystal display (LCD) module, and general packet radio service (GPRS) wireless transmission module. The sensors array of CO2, temperature, humidity, and light intensity are used to collect data and the GPS receiver module is adopted to collect location and time information. The CPU automatically stores the collected data in the server and displays them on the LCD display module in real-time. Afterwards, the GPRS module continuously wirelessly transmits the collected information to the data center server. The online monitoring Web GIS clients are developed using a PHP programming language, which runs on the Apache web server.

MySQL is utilized as the database because of its speed and reliability, and the stunning cross browser web maps are created, optimized, and deployed with the Open Layers JavaScript web-mapping library.

Keywords: IoT, Sensors

REFERENCES

[1]. Dias, M. J. et al., (2010). “Indoor Air Quality Evaluation in School Buildings Ventilated by Natural and Mechanical Systems”. Clima pp. R6-TS62-0P02,

[2]. Turkey: REHVA. ISBN Code of the CD 978-975-6907- 14-6, 2010.

[3]. Al-Haija, Q. A., Al-Qadeeb, H., & Al-Lwaimi, A.,“Case study: Monitoring of air quality in king Faisal University using a microcontroller and WSN”, Procedia Computer Science, volume 21, pp. 517–521, 31 Dec 2013. Devarakonda, S., Sevusu, P., Liu, H., Liu, R., Iftode, L., &Nath, B., “Real-time Air Quality Monitoring Through Mobile Sensing in Metropolitan Areas”, in Proceedings of the 2nd ACM SIGKDD International Workshop on Urban Computing, pp. 15, Aug 2013 .

[4]. https://www.mpcb.gov.in

[5]. https://www.iqair.com/india/maharashtra