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곽기석,강인식,정연태,강주복,Kwak, Ki Seok,Kang, In Shik,Jeong, Yeon Tae,Kang, Ju Bok 대한토목학회 1994 대한토목학회논문집 Vol.14 No.4
It is difficult to make an exact estimate of the peak discharge or the runoff depth of flood and establish the proper measure for the flood protection since the water stage or discharge has been nearly measured at most medium or small river basins. The objective of this study is to estimate parameters of the discrete, linear, input-output model for medium or small river basin. The On-Cheon River basin in Pusan was selected for the study area. The runoff data used in the study has been observed since June 1993, and the effective rainfall was determined using the storage function method. The parameter sets of the discrete, linear, input-output model were estimated using the least squares method and the correlation function method, respectively. The calculated hydrographs by the discrete, linear, input-output model regenerated the observed outflow hydrographs well, and also the simulated flood hydrograph was comparable to the observed one. Therefore, it is believed that the discrete, linear, input-output model is simpler than other runoff analysis methods, and can be applied to a medium or small river basin. 대부분의 중소규모 하천 유역에서는 수위 또는 유량 등의 실측자료가 빈약한 상태이기 때문에 홍수시의 유출량을 정확히 추정하고, 홍수피해를 경감시키기 위한 적절한 대책을 세우기가 매우 어려운 실정이다. 본 연구에서는 부산지방에 위치한 온천천 유역을 대상으로 하여 중소 하천 유역에 대한 선형 이산화 입력-출력 모형의 매개변수를 추정하고자 하였으며, 1993년 6월부터 실측한 유출량 자료와 저류함수법에 의해 산정한 유효강우량을 사용하여 선형 이산화 입력-출력 모형의 매개변수를 최소자승법과 상관함수법에 의해 추정하였다. 선형 이산화 입력-출력 모형에 의한 유출 수문곡선은 실측 수문곡선을 잘 재현한 것으로 나타났다. 또한 추정된 매개변수와 강우자료만을 사용하여 모의발생시킨 수문곡선 역시 실측 수문곡선과 잘 일치함을 알 수 있었다.
郭基錫(Kwak Ki-Seok),趙南元(Cho Nam Won),尹泰星(Tae Sung Yoon),朴珍培(Jin Bae Park) 대한전기학회 2006 전기학회논문지 D Vol.55 No.5
In this paper an optical power meter using Hadamard transform, which can be used in multiple channel optical elements alignment system, is proposed. A traditional optical power meter in multiple channel optical elements alignment system is able to judge how well the elements are aligned each other by measuring optical power of the first and the last two channels with at least two detectors. It has critical drawback that the alignment accuracy per channel is dependent on the number of detectors. The proposed optical power meter can get noise reduction by the Hadamard transform based multiplexing technique. The Hadamard transform based multiplexing technique using spatial light modulators is distinguished by the best enhancement of signal-to-noise ratio (SNR) for the reconstructed signals. Moreover, the noise reduction increases with increasing the order of multiplexing, namely the number of optical element channels. The proposed system is implemented by PDLC (Polymer Dispersed Liquid Crystal) mask which is operated by electric filed and generates optimal multiplexing patterns based on the Hadamard transform and single detector. It means that we obtain not only the each channel's optical power of multiple channel elements at once but also the best enhancement of SNR with single detector. Experimental results show that the proposed optical power meter is suitable for an active optical alignment system for multiple channel optical elements.
시간-주파수 영역 반사파 계측방법을 이용한 부하 저항 측정 시스템 구현
郭基錫(Kwak Ki-Seok),朴泰根(Tae Geun Park),尹泰星(Tae Sung Yoon),朴珍培(Jin Bae Park) 대한전기학회 2006 전기학회논문지 D Vol.55 No.10
One of the most important topics about the safety of electrical and electronic system is the reliability of the wiring system. The Time-Frequency Domain Reflectometry(TFDR) is a state-of-the-art system for detecting and estimating of the fault on a wiring. In this paper, We've considered the load resistance measurement on a coaxial cable using TFDR in a way of expanded application. The TFDR system was built using commercial Pci eXtensions for Instrumentation(PXI) and Lab VIEW. The proposed real time TFDR system consisted of the reference signal design, signal generation, signal acquisition, algorithm execution and results display part. To implement real time system, all of the parts were programmed by the LabVIEW which is one of the graphical programming languages. Using the application software implemented by the LabVIEW, we were able to design a proper reference signal which is suitable for target cable and control not only the arbitrary waveform generator in the signal generation part but also the digital storage oscilloscope in the signal acquisition part. By using the TFDR real time system with the terminal resistor on the target cable, we carried out load impedance measurement experiments. The experimental results showed that the proposed system are able not only to detect the location of impedance discontinuity on the cable but also to estimate the load resistance with high accuracy.
Multiple Fault Detection on a Coaxial Cable via TFDR
Kwak Ki-Seok(곽기석),Tae Sung Yoon(윤태성),Jin Bae Park(박진배),Jae Won Koh(고재원) 대한전기학회 2006 대한전기학회 학술대회 논문집 Vol.2006 No.7
In this paper, we considered multiple faults detection on a coaxial cable through Time-Frequency Domain Reflectometry (TFDR). It is well known that TFDR has high resolution accuracy for detecting and estimating the fault detection on a coaxial cable. This approach was based on time-frequency signal analysis and utilized a chirp signal multiplied by a Gaussian time envelope. The Gaussian envelope provided time localization, while the chirp allowed one to excite the system interest. We carried out experiments with 10C-FBT coaxial cable having either one or two faults. The result shows TFDR can be extended to detect multiple faults with high accuracy on a coaxial cable.