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Namjun Cho,Taehwan Roh,Joonsung Bae,Hoi-Jun Yoo IEEE 2009 IEEE transactions on microwave theory and techniqu Vol.57 No.10
<P>A 2.5 times 1.8 cm<SUP>2</SUP> medical implant communication service band antenna is combined with an electrode for body channel communication. The proposed design enables a body sensor network controller to communicate with health-care devices located on and inside a patient's body. The spiral microstrip antenna with its radiating body and ground plane placed side-by-side has the thickness of 2 mm and can be attached to human skin conveniently. The propagation loss of the body channel is measured when the proposed antenna is used as the skin interface for BCC in the 10-70-MHz band, and the results are compared with the cases of Ag/AgCl and circular dry electrodes. The equivalent-circuit model of the antenna as the electrode is also derived from the measured impedance characteristics. The <I>LC</I> resonance structure to drive the on-body antenna with its capacitance increased due to the skin contact reduces the power consumption of the TX buffer by >50%. The<I>S</I> <SUB>11</SUB>-parameter of the on-body antenna, its radiation pattern, and the signal loss inside the human body are investigated.</P>
The Human Body Characteristics as a Signal Transmission Medium for Intrabody Communication
Cho, Namjun,Yoo, Jerald,Song, Seong-Jun,Lee, Jeabin,Jeon, Seonghyun,Yoo, Hoi-Jun Professional Technical Group on Microwace Theory a 2007 IEEE transactions on microwave theory and techniqu Vol.55 No.5
<P>The human body characteristics as a signal transmission medium are studied for the application to intrabody communication. The measurements of the body channel cover the frequency range from 100 kHz to 150 MHz and the distance on the body up to 1.2 m. A distributed RC model is developed to analyze the large variation of the channel properties according to the frequency and channel length. The simulation results using the channel model match well with the measurements in both the frequency and time domains. The effect of the ground plane to the body channel transceivers is also investigated and an empirical formula for the minimum ground size is obtained. Finally, the amount of the electromagnetic radiation due to the body antenna effect is measured. With regards to the Federal Communications Commission regulations, the proper frequency range for the intrabody communication is determined to satisfy given bit error rate requirements</P>
Cho, Namjun,Yan, Long,Bae, Joonsung,Yoo, Hoi-Jun IEEE 2009 IEEE journal of solid-state circuits Vol.44 No.3
<P> An interference-resilient 60 kb/s–10 Mb/s body channel transceiver using the human body as a signal transmission medium is designed for multimedia and medical data transaction in body-area network. The body antenna effect which interferes with signals in the human body channel is examined. The body-induced interferences degrade the SIR of the signal to <TEX>$-$</TEX>22 dB in the worst case. In order to overcome the body antenna effect, a 4-channel adaptive frequency hopping scheme using the 30–120 MHz band is introduced to the body channel transceiver. A direct-switching modulator using dual frequency synthesizers and a DLL-based demodulator are proposed for 10 Mb/s FSK and the 4.2 <TEX>$\mu \hbox{s}$</TEX> hopping time. The transceiver fabricated with 0.18 <TEX>$\mu \hbox{m}$</TEX> CMOS withstands <TEX>$-$</TEX>28 dB SIR and its operating distance is over 1.8 m with <TEX>$-$</TEX> 25 dB SIR. Its energy consumption is 0.37 nJ/b with <TEX>$-$</TEX>65 dBm sensitivity. </P>
조남준(Namjun Cho) 한국산학기술학회 2021 한국산학기술학회논문지 Vol.22 No.5
한번 배출된 수은은 소멸되지 않고 자연환경에 축적 및 순환되며 생태계 및 인류보건에 심각한 위해를 준다. 미국에서는 수은의 인위적 배출량의 약 32 %를 차지하는 것으로 알려진 석탄 화력발전소의 배출가스의 증기수은 제거를 위해 황점착 활성탄 사용을 고려하고 있다. 본 연구애서는 석탄 연소설비 배출가스 중의 증기상의 원소수은을 저감하기 위한 고효율의 다공성 수은흡착 소재를 개발하여 소재의 수은 흡착 특성을 조사하였다. 30℃에서 증기수은 흡착능 조사결과 수은흡착용으로 상용화된 활성탄 Darco FGD 대비 실리카 나노소재인 MCM-41의 경우는 약 35 %에 불과하였으나 황을 1.5% 함침한 경우 133 %까지 증가하였고, 폐동 재생공정에서 회수한 용광로 비산재의 경우는 523 %의 효율을 보였다. 또한 30 ℃, 80 ℃ 및 120 ℃의 온도에서 흡착능을 조사한 결과 80 ℃에서 가장 우수한 흡착성능을 나타냈다. MCM-41은 실리카 나노튜브로 구조가 견고해 여러 번 재사용할 수 있을 뿐더러 활성탄을 사용할 경우 우려되는 열점 형성으로 인한 화재 가능성이 없어 추가적인 장점까지 지니고 있다. Mercury, once released, is not destroyed but accumulates and circulates in the natural environment, causing serious harm to ecosystems and human health. In the United States, sulfur-impregnated activated carbon is being considered for the removal of vapor mercury from the flue gas of coal-fired power plants, which accounts for about 32 % of the anthropogenic emissions of mercury. In this study, a high-efficiency porous mercury adsorption material was developed to reduce the mercury vapor in the exhaust gas of coal combustion facilities, and the mercury adsorption characteristics of the material were investigated. As a result of the investigation of the vapor mercury adsorption capacity at 30℃, the silica nanotube MCM-41 was only about 35 % compared to the activated carbon Darco FGD commercially used for mercury adsorption, but it increased to 133 % when impregnated with 1.5 % sulfur. In addition, the furnace fly ash recovered from the waste copper regeneration process showed an efficiency of 523 %. Furthermore, the adsorption capacity was investigated at temperatures of 30 ℃, 80 ℃, and 120 ℃, and the best adsorption performance was found to be 80 ℃. MCM-41 is a silica nanotube that can be reused many times due to its rigid structure and has additional advantages, including no possibility of fire due to the formation of hot spots, which is a concern when using activated carbon.
조남준,황성일,김학승 국민대학교 생산기술연구소 2004 공학기술논문집 Vol.27 No.-
In recent years slope failure due to heavy rainfalls or local downpours usually accompanied by typhoons has increasingly occurred in Korea. Also, the damages caused by slope failure have a tendency to be more disastrous than before. This study has been conducted to prepare an early warning system for slope failure. The data on the variations of slope conditions measured by an automatic in-situ measurement system and then transmitted to the central analysis system by using an internet. The most important variables can be back-calculated in the central system and compared with the values for the first and second management criteria. These management criteria should be modified and corrected continuously in the future by accumulated data and knowledge related to the early warning system for slope failure.
Kim, Eunjeong,Cho, Namjun,Vittal, Jagadese J,Lee, Shim Sung,Han, Won Seok,Jung, Jong Hwa American Scientific Publishers 2010 Journal of Nanoscience and Nanotechnology Vol.10 No.8
<P>Functionalized mesoporous silica with an immobilized azobenzene-coupled receptor 1 (FMS-1) as heterogeneous 'naked-eye' colorimetric and spectrophotometric chemosensor was prepared by sol-gel reaction. The optical sensing ability of FMS-1 was studied by addition of metal ions such as K+, Ca2+, Sr2+, Co2+, Cd2+, Pb2+, Zn2+, Fe3+, Cu2+ and Hg2+ in aqueous solution. Interestingly, upon the addition of Hg2+ in aqueous suspension, FMS-1 resulted in a color change from maroon to red within 10 s. On the other hand, no significant color changes were observed with the other metal ions. These findings confirm that FMS-1 can be useful as a chemosensor for selective detection of Hg2+ over a range of metal ions. Furthermore, the adsorption ability of the FMS-1 was also estimated by measuring the amount of Hg2+ and Hg0 adsorbed on the FMS-1, resulting in 95% for Hg2+ and 75% for Hg0, respectively, suggesting that the FMS-1 is potentially useful as the adsorbent for separation of Hg0 and Hg2+ in chromatography.</P>