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    Enhanced residental fire detection by combining smoke and CO sensors

    New search for: Cleary, T.
    New search for: Ono, T.

    By combining photoelectric, ionization, and CO cell sensor signals in a rule-based, fuzzy logic alarm algorithm, a robust, multi-sensor detection scheme suitable for residential applications was achieved. The alarm algorithm was able to identify emulated fire conditions earlier than both residential detectors for the smoldering cotton source, earlier than the residential photoelectric detector for the flaming fire source, and approximately the same time as the residential ionization detector for the pyrolyzing wood source. The alarm algorithm did not indicate alarm during dust or cigarette smoke exposure, and did indicate alarm during the transition to hazardous conditions for the pyrolyzing cooking oil and burning toast sources. The fact that the algorithm employed signals from existing sensor technologies already in use in homes today suggests that this approach is viable in the near future.

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    Enhanced residental fire detection by combining smoke and CO sensors

    New search for: Cleary, T.
    New search for: Ono, T.

    By combining photoelectric, ionization, and CO cell sensor signals in a rule-based, fuzzy logic alarm algorithm, a robust, multi-sensor detection scheme suitable for residential applications was achieved. The alarm algorithm was able to identify emulated fire conditions earlier than both residential detectors for the smoldering cotton source, earlier than the residential photoelectric detector for the flaming fire source, and approximately the same time as the residential ionization detector for the pyrolyzing wood source. The alarm algorithm did not indicate alarm during dust or cigarette smoke exposure, and did indicate alarm during the transition to hazardous conditions for the pyrolyzing cooking oil and burning toast sources. The fact that the algorithm employed signals from existing sensor technologies already in use in homes today suggests that this approach is viable in the near future.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

    Enhanced residental fire detection by combining smoke and CO sensors

    New search for: Cleary, T.
    New search for: Ono, T.

    By combining photoelectric, ionization, and CO cell sensor signals in a rule-based, fuzzy logic alarm algorithm, a robust, multi-sensor detection scheme suitable for residential applications was achieved. The alarm algorithm was able to identify emulated fire conditions earlier than both residential detectors for the smoldering cotton source, earlier than the residential photoelectric detector for the flaming fire source, and approximately the same time as the residential ionization detector for the pyrolyzing wood source. The alarm algorithm did not indicate alarm during dust or cigarette smoke exposure, and did indicate alarm during the transition to hazardous conditions for the pyrolyzing cooking oil and burning toast sources. The fact that the algorithm employed signals from existing sensor technologies already in use in homes today suggests that this approach is viable in the near future.

    Access

    Access via TIB
    Check availability in my library
    Order at Subito €

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    Title:

    Enhanced residental fire detection by combining smoke and CO sensors

    Additional title:

    Verbesserte Feuererkennung in Wohnungen durch Kombination von Rauch- und CO-Sensoren

    Contributors:

    Cleary, T. (author) / Ono, T. (author)

    Published in:

    AUBE, International Conference on Automatic Fire Detection, 12 ; 346-357

    NIST Special Publication (National Institute of Standards and Technology) ; 965

    Publication date:

    2001

    Size:

    12 Seiten, 14 Bilder, 5 Quellen

    ISSN:

    1048-776X

    Type of media:

    Conference paper

    Type of material:

    Print

    Language:

    English

    Keywords:

    Feuermeldetechnik , Ionisationsdetektor , photoelektrischer Sensor , Kohlenmonoxid , Mehrstellenmesssystem , Alarmsystem , Algorithmus , Schwelen , Feuer , Brandverhalten , Fuzzy-Logik , Messwertauswertung

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