IOT BASED GAS LEAKAGE AND FIRE
Abstract
This paper introduces a comprehensive and intelligent Internet of Things (IoT)-
based system meticulously designed for the proactive and real-time detection of both
hazardous gas leaks and the incipient stages of fire, thereby significantly enhancing safety
protocols across diverse environments. The proposed system leverages a synergistic
integration of a diverse array of sensing modalities, encompassing highly sensitive gas
sensors (specifically, the MQ-series, known for their broad-spectrum gas detection
capabilities), precise temperature and humidity sensors (for environmental context and
anomaly detection), and rapid-response flame sensors (to identify the characteristic
signatures of combustion). These sensors are seamlessly interfaced with a robust and
efficient microcontroller unit, which acts as the central processing hub for immediate data
acquisition and preliminary analysis. Furthermore, an integrated Wi-Fi module facilitates
uninterrupted and secure data transmission to a sophisticated cloud platform. This cloud
infrastructure serves as a central repository for continuous data logging, enabling
comprehensive historical analysis and trend identification. It also provides intuitive data
visualization tools, empowering users with real-time insights into environmental
conditions. Crucially, the system incorporates a dynamic and configurable remote
monitoring capability, allowing authorized personnel to access critical safety information
from any location. Upon the detection of abnormal gas concentration levels exceeding
predefined safety thresholds or the identification of rapid temperature increases and the
presence of flames indicative of a fire, the system is engineered to trigger immediate and
multi-faceted alerts.
Author
Mr. M.Santhose, P.Devakanna, S.Vijaykumar, S.Vijaya bharathi, D.Yogesh
Download
