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CANDU형 핵연료 채널 압력관에 대한 원거리장 와전류의 자제분포 특성해석(I)
허형,정현규,김건중,Huh, Hyung,Chung, Hyun-Kyu,Kim, Kern-Jung 한국비파괴검사학회 2002 한국비파괴검사학회지 Vol.22 No.1
CANDU형 핵연료채널 압력관(Zr-2.5%Nb)과 calandria관(Zircaloy-2)에 대한 원격장 와전류탐상의 자계분포특성을 파악하기 위하여 유한요소 해석을 수행하였다. 압력관과 칼란드리아관의 전자기장 분포와 위상각 해석을 통하여 최적 검사 주파수와 감지코일의 위치를 평가하였다. 또한 축대칭 구조물(Al-ring과 Al-block)이 공존시 파라미터해석을 통하여 원격장 와전류의 특성을 평가하였다. A FEM model of the remote-field eddy current effect is presented for zirconium-2.5 percent niobium(Zr-2.5%Nb) nuclear reactor pressure tubes to demonstrate the important electromagnetic field phenomena. This model is applied to evaluate the optimal operating frequency and detector position. There are many ambiguous experimental results connected with this technique. Finite element calculations can be used in the interpretation of these experimental results even though the electromagnetic fields measured in the remote-field technique are very small.
송.수신 안테나 스케줄링에 기반한 MIMO-OFDM 시스템의 HARQ 스위칭 기법
김규현,강승원,장경희,정병장,정현규,Kim, Kyoo-Hyun,Knag, Seoung-Won,Chang, Kyung-Hi,Jeong, Byung-Jang,Chung, Hyun-Kyu 한국통신학회 2007 韓國通信學會論文誌 Vol.32 No.6a
본 논문에서는 최근 많은 연구가 진행되고 있는 공간 다중화 기법인 Iterative BLAST를 기반으로 채널 값의 Sum을 이용하여 양호한 통신 링크를 적응적으로 선택하는 송/수신 안테나 선택 기법과 선택된 안테나를 사용하여 시스템의 신뢰성을 향상시키기 위한 안테나 스케줄링 기반 Hybrid-Automatic Repeat reQuest (UARO) 스위칭 기법을 결합한다. 본 논문에서 제안된 HARQ 스위칭 알고리즘은 각 안테나에 삽입된 CRC (Cyclic Redundancy Check) 코드를 사용하여 안테나별로 ACK (Acknowledgement) 와 NAK (Non Acknowledgement)를 확인한 후, 재전송 요구 시, 송신 안테나를 스케줄링하여 ACK 안테나에서는 CC (Chase Combining) 기법을, NAK 안테나에서는 IR (Incremental Redundancy) 기법을 적용하여 재전송이 이루어지게 한다. 본 논문에서 제안한 알고리즘의 적용시, SNR 이득과 공간 다이버시티 이득이 발생하여 기존 HARQ 시스템에 비하여 링크 성능이 향상됨을 SCM-E 채널 환경에서 모의 실험을 통하여 검증한다. In this paper, we combine the Hybrid-Automatic Repeat reQuest (HARQ) algorithm with joint Tx and Rx antenna selection based on the reliability of the individual antennas links. The cyclic redundancy check (CRC) is applied on the data before being encoded using the Turbo encoder. In the receiver the CRC is used to detect errors of each antenna stream and to decide whether a retransmission is required or not. The receiver feeds back the transmitter with the Tx antennas ordering and the acknowledgement of each antenna (ACK or NACK). If the number of ACK antennas is higher than the NACK antennas, then the retransmission takes place from the ACK antennas using the Chase Combining (CC). If the number of the NACK antennas is higher than the ACK antennas then the ACK antennas are used to retransmit the data streams using the CC algorithm and additional NACK antennas are used to retransmit the remaining streams using Incremental Redundancy (IR, i.e. the encoder rate is reduced). Furthermore, the HARQ is used with the I-BLAST (Iterative-BLAST) which grantees a high transmission rate.
박종명,황의경,김인천,이재진,정현규,강구환,Park, Jong-myung,Hwang, Eui-kyung,Kim, In-cheon,Rhee, Jae-chin,Chung, Hyun-kyu,Kang, Ku-hwan 대한수의학회 1998 大韓獸醫學會誌 Vol.38 No.1
Piglets' diarrhea is one of the major causes of economic loss in Korean swine industry. To prevent this serious and persistant problem, we have developed systemic farm evaluation and analysis program. The program consists of the checklist and the computerized program. The items of the checklist are selected on the basis of various causative factors related with the piglets' diarrhea including sanitational status, nutritional management, or farm environment. The checklist is composed of 30 items including 6 factors on facility, 8 factors on environment, 6 factors on nutrition and 10 factors on sanitation, respectively. Minimum 1 to maximum 10 points was assigned to each item depending on level or status of farm. The scores calculated by sum of points obtained from each item could find out the problems which the farm was confronted with. To investigate the applicability of a program 150 swine farms raising over 500 heads were selected from 7 provinces throughout the country and surveyed. There were significant correlations between the piglets' diarrhea and the scores of the checklist. Based on above results we revised the checklist which consisted of 22 items including 5 factors on facility, 7 factors on environment, 3 factors on nutrition and 7 factors on sanitation. After that we composed a computerized diagram out of each point of an item which showed and indicated weak factors to be improved promptly. Our present study suggested that this newly established swine farm evaluation program would be a very efficient way to find out the problems and support the systemic control program of the piglets' diarrhea for swine farms.