Design and development of air quality management devices with sensors and web of things

  • Authors

    • Neeraj Kumar Singh
    • Amardeep kumar
    • Rajesh Singh
    • Anita .
    2018-03-11
    https://doi.org/10.14419/ijet.v7i2.6.10077
  • Air pollution, Carbon emission, IoT servers, Sensors, Urbanization

  • With the rapid increase in urbanization, there is a huge and urgent need of controlling the air quality so that we can breathe freely. We need oxygen to live and sustain life and for that controlling the environment is must otherwise it would create a great damage. According to a survey, pollution is claiming one life every 23 seconds in India and the figure can go to an extent of 1 billion people dying due to air pollution by 2030. If there would be something free on earth then it would be just Carbon. The earliest step we can take towards this cause is the detection pollutants present in the atmosphere after which the action can be taken against these pollutants. The detection can be done by the use of various sensors like MQ-2, MQ-135, DHT-11, PM10/PM2.5, AQM65 etc. and then obtaining the real-time data to the local servers by the means of IoT. The pollutants can be easily monitored when connected through the internet and local servers. The sensors will work upon a micro-controller which is used to store the data and transmission of data to the servers. Afterwards, the data can be easily accessible on the application developed.

  • References

    1. [1] Gulia, Sunil, et al. "Urban air quality management-A review." Atmospheric Pollution Research 6.2 (2015): 286-304.

      [2] Al-Ali, A. R., Imran Zualkernan, and FadiAloul. "A mobile GPRS-sensors array for air pollution monitoring." IEEE Sensors Journal 10.10 (2010): 1666-1671.

      [3] Pope III, C. Arden, et al. "Lung cancer, cardiopulmonary mortality, and long-term exposure to fine particulate air pollution." Jama 287.9 (2002): 1132-1141.

      [4] Hasenfratz, David, et al. "Participatory air pollution monitoring using smartphones." Mobile Sensing 1 (2012): 1-5.

      [5] Kularatna, Nihal, and B. H. Sudantha. "An environmental air pollution monitoring system based on the IEEE 1451 standard for low cost requirements." IEEE Sensors Journal 8.4 (2008): 415-422.

      [6] Snyder, Emily G., et al. "The changing paradigm of air pollution monitoring." (2013): 11369-11377.

      [7] Khedo, Kavi K., Rajiv Perseedoss, and AvinashMungur. "A wireless sensor network air pollution monitoring system." arXiv preprint arXiv:1005.1737 (2010).

      [8] Jordan, Dale A., et al. "Block diagram system and method for controlling electronic instruments with simulated graphic display." U.S. Patent No. 5,155,836. 13 Oct. 1992

      [9] Kopetz, H., 2011. Internet of things. In Real-time systems (pp. 307-323). Springer US

      [10] Al-Haija, Qasem Abu, Hasan Al-Qadeeb, and Abdulmohsen Al-Lwaimi. "Case Study: Monitoring of AIR quality in King Faisal University using a microcontroller and WSN." Procedia Computer Science 21 (2013): 517-521.

      [11] Sanaeifar, Alireza, et al. "Development and application of a new low cost electronic nose for the ripeness monitoring of banana using computational techniques (PCA, LDA, SIMCA, and SVM)." (2014).

      [12] Wang, Jun, and Sundar A. Christopher. "Intercomparison between satelliteâ€derived aerosol optical thickness and PM2. 5 mass: implications for air quality studies." Geophysical research letters 30.21 (2003).

      [13] Galatsis, Kosmas, and WojtekWlodarski. "Car cabin air quality sensors and systems." Encycl. Sens 8.111 (2006): 15.

      [14] Li, Jason Jingshi, et al. "Sensing the air we breathe-the opensensezurich dataset." Proceedings of the National Conference on Artificial Intelligence. Vol. 1. No. EPFL-CONF-197502. 2012.

      [15] Tsujita, Wataru, et al. "Gas sensor network for air-pollution monitoring." Sensors and Actuators B:

      Chemical 110.2 (2005): 304-311.

      [16] Doni, Ashwini, Chidananda Murthy, and M. Z. Kurian. "SURVEY ON MULTI SENSOR BASED AIR AND WATER QUALITY MONITORING USING IOT." Indian J. Sci. Res 17.2 (2018): 147-153.

      [17] Boubrima, Ahmed, et al. "Poster: Toward a Better Monitoring of Air Pollution using Mobile Wireless Sensor Networks." Proceedings of the 23rd Annual International Conference on Mobile Computing and Networking. ACM, 2017.

      [18] Tianlong, Ni. "Application of Single Bus Sensor DHT11 in Temperature Humidity Measure and Control System [J]." Microcontrollers & Embedded Systems 6 (2010): 026.

  • Downloads

  • How to Cite

    Kumar Singh, N., kumar, A., Singh, R., & ., A. (2018). Design and development of air quality management devices with sensors and web of things. International Journal of Engineering & Technology, 7(2.6), 107-111. https://doi.org/10.14419/ijet.v7i2.6.10077