• Bulletin of the Korean Space Science Society
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• 2006.04a
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• pp.52-52
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• 2006

• Bulletin of the Korean Space Science Society
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• 2006.04a
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• pp.48-48
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• 2006

• The Safety technology
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• no.150
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• pp.24-25
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• 2010

• The Korean Publising Journal, Monthly
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• s.309
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• pp.46-47
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• 2001

• Journal of Animal Environmental Science
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• v.6 no.3
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• pp.201-209
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• 2000

Optimal conditions to utilize egg type male chicks from hatchery for cultivating yeast(Saccharomyces cerevisiae) and the effects of the yeast culture on growth of broiler chicks were investigated. The protein concentration of the spent cockerel extracts was the highest when extracted for 72 hours. Optimal water volume added to the spent cockerel chicks for the extraction was 1.5 times to the cockerel chicks weight (v/w ratio). Lipid in the extracts from the spent cockerel chicks did not affect on the yeast growth. The number of yeast cultured in the SCELP2 medium containing spent cockerel extracts and 4 % sugarcane molasses was higher by 26 % than that in the YEPD medium containing 1 % yeast extract, 2 % bacto pepton and 2 % glucose. Also the number of yeast cultured in the SBYW2 medium containing SCEP2 medium containing SCELP2 and 4 % brewer's yeast waste was increased by 8 %, compared to that in the SCELP2 medium. Body weight gain of chicks fed 4 % yeast culture supplementations cultivated in the SBYW2 medium was increased at 5 weeks by 9 %, relative to no supplementation(P<0.05). The results from this study suggest that the spent cockerel chicks can be utilized as nitrogen sources to produce yeast culture for animal feed.

• Proceedings of the Korean Information Science Society Conference
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• 2001.10c
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• pp.511-513
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• 2001

다목적 실용위성인 아리랑 위성은 각각의 기능을 수행하는 3개의 프로세서들로 분산되어 있으며 이들 프로세서들은 데이터 버스인 MID-STD-1553을 통해 프로세서간 통신을 수행하게 되며, 지상과의 통신을 위해서는 CCSDS(Consultative Committee fur Space Data)[1] 표준 규격을 채택하여 사용하고 있다. 이 표준 규격에 맞추어 지상에서는 위성으로 명령들을 보내게 리며 각각의 3개 프로세서 상에서 수행중인 탑재 소프트웨어 중 명령처리(Command and Communication Interface) 소프트웨어에서는 이들 명령들을 각각의 명령어 유형에 따라 처리하게 된다. 지상으로부터 전송되어진 명령들은 3개 프로세서 중 OBC(On-Board Computer)를 통해 처리되어진 후 1553B Data Bus를 통해 다른 2개 프로세서로 전송되어진다. 본 논문에서는 아리랑 위성에서 처리되는 명령득의 유형의 설계 및 구현 방법을 설명한다.

• The Bulletin of The Korean Astronomical Society
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• v.37 no.2
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• pp.158.2-158.2
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• 2012

2012년 5월 18일 일본 다네가시마 발사장에서 성공적으로 발사된 아리랑위성 3호가 정상 궤도 진입을 성공하여 앞으로 4년간 임무를 수행할 예정이다. 2006년 7월 발사되어 3년간의 설계수명에 대한 임무 완수와 2차 연장 임무를 수행중인 아리랑위성 2호와 함께 임무관제국에서는 아리랑위성 2호와 3호를 보유하게 되었다. 향후발사 예정인 아리랑위성 5호와 3A 등을 포함할 경우 위성 증가에 따르는 관제 명령 수량을 원활하게 처리하기 위해 국내외 관제 안테나 사이트를 추가로 구축 글로벌 지상관제안테나 망이 요구됨에 따라, 지리적으로 접근이 용이하고 기후가 혹독하지 않아서 안정적으로 운영 가능한 국내외 관제안테나 사이트가 필요하다. 또한, 아리랑위성시리즈를 위한 국내외 안테나사이트 구축 시 임무관제국과 관제 안테나 사이트 간에는 위성과의 교신 시 안정적인 통신링크 확보가 필요하다. 본 논문에서는 지리적인 여건으로 일반적인 지상 네트워크 통신을 구축할 수 없는 경우에 고려 가능한 위성 통신망을 이용한 설계방법에 대하여 기술하고 있다.

• Journal of the Korean Society for Aeronautical & Space Sciences
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• v.31 no.10
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• pp.40-50
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• 2003

The operational orbit evolution of the KOMPSAT-l over 3 years was analyzed. During LEOP, four orbit maneuvers were performed to obtain the optimized orbit and eight safe-hold modes happened. The effects of unpredictable occurrence of the safe-hold mode and the highest solar activity on the orbit evolution during the mission life were analyzed. The comparison of orbital elements between long-term predicted orbit and determined orbit from observed data was also performed. The operational orbit started from the optimized one was evolved within the boundary of the designed mission orbit except altitude and it was verified the sun-synchronous orbit was successfully maintained.

• Aerospace Engineering and Technology
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• v.3 no.1
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• pp.109-116
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• 2004

In a satellite time management system, the GPS-based clock synchronization technique[1] has the merits of precision time management by knowing the time difference or the error between the OBT(On Board Time) of the internal processors and GPS time every second. It can be realized employing the DPLL(Digital Phase Loop Lock) and FEP(Front End Processor) circuitry for the clock synchronization[2]. In this paper, a refined DPLL & FEP scheme is proposed to provide the precision, stability and robustness of the operation, which is to compensate the errors and noise of the GPS signal, and also to cope with the case when the GPS signal is lost due to several reasons. The simulation and HIL (Hardware In the Loop) test results using the FM(Flight Model) in the course of KOMPSAT-2(Korea Multi Purpose Satellite-2) design and development are illustrated to demonstrate the salient features of this methodology.

• Korean Journal of Remote Sensing
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• v.36 no.6_2
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• pp.1615-1627
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• 2020

The purpose of this study is to compare and analyze the performance of KOMPSAT-3 Digital Surface Model (DSM) made in overseas testbed area. To that end, we collected the KOMPSAT-3 in-track stereo image taken in San Francisco, the U.S. The stereo geometry elements (B/H, converse angle, etc.) of the stereo image taken were all found to be in the stable range. By applying precise sensor modeling using Ground Control Point (GCP) and DSM automatic generation technique, DSM with 1 m resolution was produced. Reference materials for evaluation and calibration are ground points with accuracy within 0.01 m from Compass Data Inc., 1 m resolution Elevation 1-DSM produced by Airbus. The precision sensor modeling accuracy of KOMPSAT-3 was within 0.5 m (RMSE) in horizontal and vertical directions. When the difference map was written between the generated DSM and the reference DSM, the mean and standard deviation were 0.61 m and 5.25 m respectively, but in some areas, they showed a large difference of more than 100 m. These areas appeared mainly in closed areas where high-rise buildings were concentrated. If KOMPSAT-3 tri-stereo images are used and various post-processing techniques are developed, it will be possible to produce DSM with more improved quality.