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이덕동,박길흠,최두현,한대현,백운이,임정옥,황태진 ( Duk Dong Lee,Kil Heum Park,Doo Hyun Choi,Dae Hyun Han,Woon Yi Baek,Jeong Ok Lim,Tae Jin Hwang ) 한국센서학회 1998 센서학회지 Vol.7 No.5
A new human sensibility (kansei) meter that can measure human sensibility at the indoor environment is developed in this paper. Four sensors that can measure temperature, humidity, CO₂ and C₄H_(10) concentrations are used. Among these sensors, the first three are used to determine the human sensibility, And the last to protect human from the harmful gas. First of all, human sensibilities are defined for each sensor datum, and then those are linearly combined to make a final human sensibility (kansei). The efficiency and usefulness of the meter are verified using a simulator on Windows 95 and a stand-alone system constructed using a microprocessor.
이윤수 ( Yun Su Lee ),송갑득 ( Kap Duk Song ),주병수 ( Byung Su Joo ),이상문 ( Sang Mun Lee ),최낙진 ( Nak Jin Choi ),이덕동 ( Duk Dong Lee ),허증수 ( Jeung Soo Huh ) 한국센서학회 2004 센서학회지 Vol.13 No.2
N/A Optical fiber sensors have been used to detect small amounts of chemical species. In this work, a new thin polymer-clad fiber sensor is developed. Polyaniline is chemically synthesized and thin clad layers of the polymer are easily deposited on optical fiber by dip-coating technique. The optical property of polyaniline as a sensing material is analyzed by UV-Ms-NIR. The light source is stabilized He-Ne laser at635 nm wavelength with 1 mW power. The light power transmitted through the optical fiber is measured with a spectrophotometer. By selecting a fixed incident angle, variation of transmitted light intensity through the optical fiber can be detected as gas molecules absorbed in the polyaniline clad layer. Among the various gases, the fabricated optical fiber sensor shows good sensitivity to NH3 gas. The optical fiber sensors was shown more improved properties than polymer based sensors which measure conductivity changes.
Pt전극을 사용한 SnO2( Ca )/Pt 후막소자의 탄화수소계가스에 대한 감응 특성
홍영호,이덕동 ( Young Ho Hong,Duk Dong Lee ) 한국센서학회 1995 센서학회지 Vol.4 No.2
A coprecipitation method as used for preparing Ca and Pt doped SnO₂-based material. Crystallite site and specific surface area are investigated by TEM, XRD and BET analysis. SnO₂(Ca)/Pt based thick film devices were prepared by a screen printing technique for hydrocarbon gas detecting. $quot;then the electrical and sensing characteristics of devices were investigated. Ca and Ft addition, the crystal growth of SnO₂ was suppressed during calcining and sintering, and the sensitivity of SnO₂ (Ca)/Pt thick film to gas was enhanced. Also any difference in the sensing toroperties has to be attributed to the Pt and 1u electrode. For the 200 ppm CH₄ the sensitivity of SnO₂(Ca)/Pt thick film devices were about 83% at an operating temperature of 400℃.