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http://dx.doi.org/10.7731/KIFSE.2018.32.6.040

The Study on the Fire Monitoring Dystem for Full-scale Surveillance and Video Tracking  

Baek, Dong-hyun (Dept. of Fire&Disaster Protection Engineering, Gachun Univ.)
Publication Information
Fire Science and Engineering / v.32, no.6, 2018 , pp. 40-45 More about this Journal
Abstract
The omnidirectional surveillance camera uses the object detection algorithm to level the object by unit so that broadband surveillance can be performed using a fisheye lens and then, it was a field experiment with a system composed of an omnidirectional surveillance camera and a tracking (PTZ) camera. The omnidirectional surveillance camera accurately detects the moving object, displays the squarely, and tracks it in close cooperation with the tracking camera. In the field test of flame detection and temperature of the sensing camera, when the flame is detected during the auto scan, the detection camera stops and the temperature is displayed by moving the corresponding spot part to the central part of the screen. It is also possible to measure the distance of the flame from the distance of 1.5 km, which exceeds the standard of calorific value of 1 km 2,340 kcal. In the performance test of detecting the flame along the distance, it is possible to be 1.5 km in width exceeding $56cm{\times}90cm$ at a distance of 1km, and so it is also adaptable to forest fire. The system is expected to be very useful for safety such as prevention of intrinsic or surrounding fire and intrusion monitoring if it is installed in a petroleum gas storage facility or a storing place for oil in the future.
Keywords
Full-scale surveillance; Video tracking; Fire monitoring system; Field experiment;
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  • Reference
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