|
Á¦¸ñ
|
Intelligent Multi-Sensor Detection System for Monitoring Indoor Building Fires
|
|
ÁÖÀúÀÚ
|
Jaeseung Baek
|
|
±³½ÅÀúÀÚ
|
Á¤¿µ¼±, Myong K. Jeong
|
|
°øµ¿ÀúÀÚ
|
Taha J. Alhindi, Seongho Seo, Jongseok Kang, Yoseob Heo
|
|
DOI
|
10.1109/JSEN.2021.3124266
|
|
Çмú±â°ü
|
IEEE Sensors Journal
|
|
¹ßÇà±â°ü
|
IEEE
|
|
³í¹® ¿ä¾à
|
This paper presents a novel fire detection system to monitor various types of indoor building fires. While conventional studies mainly focus on developing separate fire sensing systems and detection algorithms, the proposed fire detection system integrates both sensing and detection phases for the detection algorithm to effectively utilize diverse sensor signals in real-time to detect fire outbreak at an early stage. The proposed fire sensing system gathers sensor data from multiple sensor types that are sensitive to measuring various components emitted from fires. Then, the collected sensor data are utilized by a similarity matching-based fire detection algorithm that captures diverse shape patterns that exist in the sensor signals under various fire scenarios, and detects the outbreak of fires at an early stage, with low false alarms. The real-life sensor data collected by the newly developed sensing system and experimental results conducted by the proposed fire detection algorithm show the effectiveness of the proposed fire detection system.
|
|
°ÔÀçÀÏÀÚ
|
2021³â 11¿ù 01ÀÏ
|
|
Á¶È¸¼ö
|
1653
|
|
|
|
|
±³À°¿¬±¸ È°µ¿ > ³í¹® °ÔÀç
