Year : 2024 | Volume : 15 | Issue : 03 | Page : 19 27

Umesh Pinjarkar,

Indrayani Bhujade,

Sejal Birgawale,

Suyesh Shinde,

Kulashri Kasbe,

Assistant Professor, Department of Computer Science Engineering, Saraswati College of Engineering, Pune, Maharashtra, India
Student, Department of Computer Science Engineering, Saraswati College of Engineering, Pune,, Maharashtra, India
Student, Department of Computer Science Engineering, Saraswati College of Engineering, Pune, Maharashtra, India
Student, Department of Computer Science Engineering, Saraswati College of Engineering, Pune, Maharashtra, India
Student, Department of Computer Science Engineering, Saraswati College of Engineering, Pune, Maharashtra, India

Abstract

The internet of things (IoT) based air monitoring system is a novel approach to monitoring air quality in real time. With the increasing concerns over pollution and its impact on human health, our IoT-based air monitoring system offers a solution to gather and analyze air quality data efficiently. The system utilizes IoT devices like Node MCU and sensors like MQ135 and DTH11 to collect data such as temperature, air quality, and humidity, respectively, providing valuable insights for individuals and authorities to make informed decisions for a cleaner and healthier environment. Sophisticated real-time air monitoring systems have been developed because of growing global awareness of air quality and its direct impact on human health. The IoT-based portable and user-friendly air watch system seeks to give people and communities useful information about air pollution levels. This analysis delves into the technical underpinnings of IoT-based air monitoring systems, emphasizing their portability, user friendliness, and capacity to integrate many sensors to gather data on a range of contaminants. It goes into additional detail about the practical applications of these systems, their importance in reducing health hazards, and the techniques used in their development and implementation. A discussion of upcoming trends and potential enhancements, for broader adoption and scalability rounds up the review.

Keywords: MQ135 Gas Sensor, DTH11 Temperature Sensor, Node MCU, Internet of Things, Microcontroller, RAM, Wi-Fi Module

[This article belongs to Journal of Control & Instrumentation ]

How to cite this article:
Umesh Pinjarkar, Indrayani Bhujade, Sejal Birgawale, Suyesh Shinde, Kulashri Kasbe. Portable and User-friendly Air Watch System Based on IoT. Journal of Control & Instrumentation. 2024; 15(03):19-27.

How to cite this URL:
Umesh Pinjarkar, Indrayani Bhujade, Sejal Birgawale, Suyesh Shinde, Kulashri Kasbe. Portable and User-friendly Air Watch System Based on IoT. Journal of Control & Instrumentation. 2024; 15(03):19-27. Available from: https://journals.stmjournals.com/joci/article=2024/view=179766

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Regular Issue Subscription Review Article

Journal of Control & Instrumentation

ISSN: 2229-6972

Volume	15
Issue	03
Received	23/08/2024
Accepted	16/09/2024
Published	24/10/2024

286

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