IoT Based Sound and Air Pollution Measuring Temperature and Humidity Monitoring System

Authors

  • P V Hari Prasad Associate Professor, Department of Computer Science & Engineering, Dhanekula Institute of Engineering & Technology, Ganguru, India Author
  • Maddasani Daya Rani Students, Department of Computer Science & Engineering, Dhanekula Institute of Engineering & Technology, Ganguru, India Author
  • Garimella Keerthana Students, Department of Computer Science & Engineering, Dhanekula Institute of Engineering & Technology, Ganguru, India Author
  • Kollu Yaswanth Kumar Students, Department of Computer Science & Engineering, Dhanekula Institute of Engineering & Technology, Ganguru, India Author
  • Uppalapathi Bhargav Students, Department of Computer Science & Engineering, Dhanekula Institute of Engineering & Technology, Ganguru, India Author

Keywords:

MQ7 sensor, MIC sensor, DHT11 sensor, MQ135 gas Sensor

Abstract

Now a day in metropolitan cities air and  sound pollution becomes serious issues, because of high  decibels and toxic gases present within the environment  which directly effect on human health and thus needs a  special attention. Therefore, it's now become necessary to  regulate the pollution (air and noise) to ensure healthy  livelihood and better future. In this paper, an efficient  implementation for Internet of Things is employed for  monitoring atmospheric conditions of environment like air  pollution and noise pollution. And also we monitor The  Temperature and Humidity. Using MQ7 sensor for sensing  Carbon Monoxide (CO) and MQ135 gas Sensor for  detecting wide range of gases, including NH3, NOx,  alcohol, benzene, smoke and CO2.constantly transmit this  data. Also, system keeps measuring sound level using MIC  sensor and reports it. DHT11 sensor consists of a capacitive  Humidity sensing element and Thermistor for sensing  Temperature. Soil moisture is the amount of water in the  soil. Soil moisture monitoring system that helps the govt  authorities to understand the data about dry soil areas within  the agricultural lands within a village, town or maybe a  state so that the required precautionary steps will be taken  to create such lands fertile. 

Downloads

Download data is not yet available.

References

Dhruvil Shah, PrathmeshKudale, Prasad Shirwadkar, Samuel Jacob, Iot Based Air and Sound Pollution Supervising System, IOSR Journal of Engineering, 2018.

Arushi Singh, Divya Pathak, Prachi Pandit, Shruti Patil, Prof. Priti . C. Golar, IOT based Air and Sound Pollution Monitoring System, International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, 2017.

Sindhu .K .G, Shruthi. H, Sumanth. M. B, Vijayashree. H. M, Ayesha. A. P, IOT Based Air and Noise Pollution Monitoring System, International Journal of Innovative Research in Science, Engineering and Technology, 2018

Ms. SarikaDeshmukh, Mr . SaurabhSurendran, Prof. M.P. Sardey, Air and Sound Pollution Monitoring System using IoT, Intern ational Journal on Recent and Innovation Trends in Computing and Communication, 2017.

P. Sai Chandana, K. Sreelekha, A. Muni Likith Reddy, M. Anil Kumar Reddy, R. Senthamilselvan, IOT Air And Sound Pollution Monitoring System, International Journal on Applications in Engineering and Technology, 2017.

Anushka Sharma, Vaishnavi Varshney, Roopank Maheshwari, Upasana Pandey, IOT Based Air And Sound Pollution Monitoring System, International Research Journal of Engineering and Technology, 2018.

Lalit Mohan Joshi, Research paper on IOT based Air and Sound Pollution Monitoring System, International Journal of Computer Applications, 2017.

Downloads

Published

2021-07-30

Issue

Vol. 9 No. 4 (2021): International Journal of Innovative Research in Computer Science and Technology (Jul) 2021

Section

Articles

How to Cite

IoT Based Sound and Air Pollution Measuring Temperature and Humidity Monitoring System . (2021). International Journal of Innovative Research in Computer Science & Technology, 9(4), 22–26. Retrieved from https://acspublisher.com/journals/index.php/ijircst/article/view/11377