Abstract
In recent years, since the tall buildings are getting increased and getting dense in the city area, those buildings can be more and more exposed to risks such as fire and natural disasters. In case if the high-rise building is on fire, it is not easy to put out the fire even with the modernization of the firefighting equipment. These risks can directly lead to human casualties so that it is necessary to quickly have an initial evacuation or initial suppression risks. In this paper, we propose the integrated method for reducing the fire risks through sensors such as temperature and humidity, ZigBee technology, camera control and image processing technologies, and real-time data transmission technology. Based on our proposed method, it is expected that our integrated system directly leads to the expansion of risk safety management system as well as the development of USN technologies.
Highlights
As the high-rise building rapidly increases, when fire breaks out, reactive action is very important and general
It is seen that a number of fire alarms can be found to be with the discharged battery
We propose the use of the integrated system such as sensors, ZigBee technology, camera control and image processing technologies for environmental monitoring, and real-time data transmission technology between server and smart devices
Summary
As the high-rise building rapidly increases, when fire breaks out, reactive action is very important and general. It is seen that a number of fire alarms can be found to be with the discharged battery In order to reduce the fire hazard, there are abundant research on checking the status of equipment, real-time data monitoring and analysis, and fire alarms and corresponding processing. We propose the use of the integrated system such as sensors, ZigBee technology, camera control and image processing technologies for environmental monitoring, and real-time data transmission technology between server and smart devices. By implementing these technologies, we can expect to reduce the risks due to fire.
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More From: International Journal of Distributed Sensor Networks
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