• Proceedings of the Korean Society of Precision Engineering Conference
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• 2004.10a
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• pp.1017-1020
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• 2004

It is not efficient and scarcely out of the question to use commercial expensive electron beam lithography system widely used for semiconductor fabrication process for the manufacturing application field of various devices in the small business scope. Then scanning electron microscope based electron beam machining system is maybe regarded as a powerful model can be used for it simply. To get a complete suite of thus proper system, column unit build up with several electo-magnetic lens is necessarily required more than anything else to modify scanning electron microscope. In this study, various components included several electro-magnetic lens and main body which are essentially constructed for column unit are designed and manufactured. And this established column unit will be used for next connected study in the development step of scanning electron microscope based electron beam machining system.

• Proceedings of the ESK Conference
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• 1993.10a
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• pp.38-45
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• 1993

VDT는 저주파 대역에서 인체에 해롭다고 여겨지는 전자파를 발생시키고 있다. 선진제국에서는 VDT에 서 발생하는 전자파를 규제하기 위해 VDT 전자파 측정방법의 표준화와 안전 규제 등을 실시하고 있다. VDT와 관련한 대표적인 측정기준으로는 스웨덴의 MPR 기준이 있다. 본 연구에서는 MPR 기준에 의거 VDT의 전기장, 자기장 모두에 대해 거리별, 방향별, 높이별 세기를 측정하였다. 또한 VDT 전자파의 상대적 세기를 알아보기 위해 다른 전기제품인 전기담요, 헤어드리이어 등에 대한 비교측정도 수행하였 으며, 보안경의 전자파 차폐효과도 측정하였다. 측정결과, VDT 전기장은 전면에서 세기가 가장 크며, 후면으로 갈수록 작아지는 것으로 나타났으며, 자기장은 ELF 대역은 양측면에서, VLF 대역은 전면에서 그 크기가 가장 큰것으로 나타났다. 전기제품과의 비교에서는 VDT의 전기장, 자기장은 전기담요, 헤어 드리이어 등에 비해 크지 않은 것으로 나타났으며, 보안경은 접지해서 쓸때만 전기장 차폐효과가 큰것 으로 나타났다.

• Journal of Environmental Science International
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• v.24 no.4
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• pp.371-381
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• 2015

In the mountain streams in Jeju Island, strong turbulence and roughness usually made it nearly impossible to utilize most of intrusive instrumentation for streamflow discharge measurements. Instead, a non-intrusive fixed electro-magnetic wave surface velocimetry (fixed EWSV: Kalesto) became alternatively popular in many representative streams to measure stream discharge seamlessly. Currently, Kalesto has shown noteworthy performance with little loss in flood discharge measurements and also has successfully provided discharge for every minute. However, Kalesto has been operated to regard its measured one-point velocity as the representative mean velocity for the given cross-section. Therefore, it could be highly possible to potentially encompass discharge measurements errors. In this study, we analyzed the difference between such Kalesto discharge measurements and other alternative concurrent discharge measurements such as Acoustic Doppler Current Profiler (ADCP) and mobile EWSV which were able to measure velocity in multi-points in the cross-section. Consequently, Kalesto discharge deviated from ADCP discharge in amount of 48% for relatively low flow, and more than 20% difference for high flow compared with mobile EWSV discharge measurements. These results indicated that the one-point velocity measured by Kalesto should be used as a cross-sectional mean velocity, rather it should be accounted for as an index-velocity in conjunction with directly measured cross-sectional mean velocity by using more reliable instrumentations. After inducing Kalesto Discharge Correction Coefficient (KDCC) that actually means relationship between index velocity and cross-sectional mean velocity, the corrected discharge from Kalesto was significantly improved. Therefore, we found that index velocity method should be applied to obtain better accuracy of discharge measurement in case of Kalesto operation.

• Spatial Information Research
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• v.19 no.5
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• pp.87-96
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• 2011

Recently mobile users can access to internet using smart phone at any place and any time, through which they can search and share information. In addition, as the sensors with high-tech functions become cheaper and miniaturized along with the development of MEMS (micro-electo mechanical systems) technology, the extent to utilize smart phone is increasing. Smart phone is equipped with various sensors such as high-resolution camera, GPS, gyroscope and magnetic sensor, which is an appropriate system configuration for remote monitoring research using camera. The remote monitoring system requires camera for video and internet network to send video, for which it has a limitation that it is influenced by the monitoring location. This study is aimed to design and develop the monitoring app. which can be remotely monitored using smart phone technology. The developed monitoring app was designed to take images of ROI (region of interest) within the specified time and to automatically send the images to the server. The developed app. is also possible to be remotely controlled by SMS (short message service). The monitoring proposed in this study can take high-resolution images using CMOS built in the smart phone and send the images and information to the server automatically at any place and any time using 3G and Wi-Fi networks.