Environmental Monitoring in Flammable Climate Zones over IoT Cloud

Lela Mirtskhulava, Lm. (Iv. Javakhishvili Tbilisi State University & San Diego State University Georgia, Georgia); Lela Tvaliashvili (Iv. Javakhishvili Tbilisi State University, Georgia); Avtandil Bardavelidze (Akaki Tsereteli State University Kutaisi, Georgia); Luka Tvaliashvili (San Diego State University Tbilisi, Georgia)

In the given paper, we propose an effective framework for Intelligent Environmental monitoring in dry and flammable zones using wireless sensor networks for real-time fire detection. The wireless sensor network can give more accurate detection of fire danger rate over Internet of Things (IoT). There are two models designed in this paper. In a first given model, WSN consists of various sensors forming the sensor nodes, which measure the basic environmental parameters like temperature, humidity and the level of flammable gases in the given environment. We're using Arduino as a microcontroller board capable to transmit data via Bluetooth module to the smartphone. Android smartphone application is capable to display temperature data. In another model, we simulated IoT environment monitoring using Cisco Packet Tracer. In this model IoT environment was built automatically detecting fire by using remote fire sensor. MCU board simulates Arduino which is connected to temperature and smoke sensors and acting like the remote fire detection unit. MCU is connected to home gateway and secured. Fire alarm system is connected to a home gateway where a SBC board is connected to an alarm actuator. Both systems are connected and registered to IoE server providing automated process raising a fire alarm when fire is occurred and detected by using the fire sensor.

Conference: UKSim-AMSS 22nd International Conference on Computer Modelling and Simulation, UKSim2020

Published: Mar 25, 2020

DOI: 10.5013/IJSSST.a.21.02.34