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Development of Electrical Fire Detection System Applying Fuzzy Logic for Main Causes of Electrical Fire in Traditional Market Shops  

Kim, Doo Hyun (Department of Safety Engineering, Chungbuk National University)
Hwang, Dong Kyu (Department of Safety Engineering, Chungbuk National University)
Kim, Sung Chul (Department of Safety Engineering, Chungbuk National University)
Kim, Sang Ryull (Department of Occupational Health, Andong Science College)
Kim, Yoon Bok (Department of SGEEC, Korea Polytechnic IV)
Publication Information
International Journal of Safety / v.11, no.2, 2012 , pp. 15-21 More about this Journal
Abstract
This paper is aimed to develop an electrical fire detection system (EFDS) which can analyze the possibility of electrical fire for overcurrent, leakage current and arc signals of panel board in traditional market shop. The EFDS adopted fuzzy logic and precursory data for overcurrent, leakage current and arc signals to evaluate the possibility of electrical fire. The signals are obtained directly from panel board in traditional market shops and fuzzy membership function is obtained from experiment, simulation, expert's advice. The overcurrent data is acquired by thermal data of normal and abnormal states (partial disconnection) on the insulated electrical wire, in accordance with the increase of the current signal, The leakage current data is obtained under various environments. The arc signal is acquisited by waveforms of instantaneous value in time domain and frequency band in frequency domain. The Fuzzy algorithm for DB of EFDS consists of fuzzification, inference engine by Mamdani's method and defuzzification by center of gravity method. In order to verify the performance and reliability of EFDS, it was applied to Jeon-Ju traditional market shops (90 shops) in Korea. Results show that EFDS in this paper is useful in alarming the fire case, which will prevent severe damage to human beings and properties, and reduce the electrical fires in a vulnerable area of electrical disaster.
Keywords
electrical fire; overcurrent and leakage current; arc; fuzzy membership function; electrical disaster;
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  • Reference
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