Year : 2025 | Volume : 12 | Issue : 02 | Page : 6-12

Wavhal Pranav Sachin,

Palve Pragati Shahurao,

Mhaske Preeti Dnyaneshwar,

Vanjari Vishwajeet Sampat,

P.S. Kedge,

Research Scholar, Department of Computer Engineering, Rajgad Dnyanpeeth Technical Campus, Pune, Maharashtra, India
Research Scholar, Department of Computer Engineering, Rajgad Dnyanpeeth Technical Campus, Pune, Maharashtra, India
Research Scholar, Department of Computer Engineering, Rajgad Dnyanpeeth Technical Campus, Pune, Maharashtra, India
Research Scholar, Department of Computer Engineering, Rajgad Dnyanpeeth Technical Campus, Pune, Maharashtra, India
Professor, Department of Computer Engineering, Rajgad Dnyanpeeth Technical Campus, Pune,, Maharashtra, India

Abstract

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One of the most important and significant elements influencing human lives and health, as well as the health of living things and the natural or constructed environment, is environmental pollution. The low- cost environmental pollution monitoring system described in this study will be used to measure temperature, dust, sound pollution, and highly toxic gases such as CO2, CO, and CH4. It was created based on user needs to identify and prevent exposure to air and noise pollutants. The system is made up of several temperature, sound, dust, and gas sensors that are all combined onto one platform. This is one of the most important concerns for maintaining human life and ensuring that humans cohabit peacefully. One of the most important concerns for the continued existence of peaceful cohabitation between humans and environment is this. The first stage in developing a remedy is assessing the damage and, if necessary, implementing preventative and eradication actions. The Internet of Things’ developing technology offers a wide range of possible models for the aforementioned uses. The study that follows sheds light on a few of the models that were assessed and compares them all in order to investigate the field. This project suggests a GSM and ThingSpeak-based Internet of Things-based air and sound monitoring system. The system integrates sensors to monitor air quality and sound levels, sending SMS alerts via GSM when thresholds are exceeded. Data is also updated on ThingSpeak for real-time monitoring. An LCD module displays local readings.

Keywords: Arduino 328 SMD, air sensor, sound sensor, IoT module, GSM, buzzer

[This article belongs to Journal of Telecommunication, Switching Systems and Networks ]

How to cite this article:
Wavhal Pranav Sachin, Palve Pragati Shahurao, Mhaske Preeti Dnyaneshwar, Vanjari Vishwajeet Sampat, P.S. Kedge. IoT Based Air and Sound Pollution Monitoring System. Journal of Telecommunication, Switching Systems and Networks. 2025; 12(02):6-12.

How to cite this URL:
Wavhal Pranav Sachin, Palve Pragati Shahurao, Mhaske Preeti Dnyaneshwar, Vanjari Vishwajeet Sampat, P.S. Kedge. IoT Based Air and Sound Pollution Monitoring System. Journal of Telecommunication, Switching Systems and Networks. 2025; 12(02):6-12. Available from: https://journals.stmjournals.com/jotssn/article=2025/view=0

Full Text PDF

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Regular Issue Subscription Original Research

Journal of Telecommunication, Switching Systems and Networks

ISSN: 2454-6372

Volume	12
Issue	02
Received	01/04/2025
Accepted	22/04/2025
Published	24/05/2025
Publication Time	53 Days

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