Browse > Article
http://dx.doi.org/10.5139/JKSAS.2010.38.5.499

Ground Stations of Korean Deep Space Network for Lunar Explorations  

Kim, Sang-Goo (한양대학교 전자통신공학부)
Yoon, Dong-Weon (한양대학교 전자통신공학부)
Hyun, Kwang-Min (강릉원주대학교 정보통신공학과)
Publication Information
Journal of the Korean Society for Aeronautical & Space Sciences / v.38, no.5, 2010 , pp. 499-506 More about this Journal
Abstract
Many countries of the world have been launched the competition of space development and Korea also has a plan for the launch of Lunar orbiter in 2020 and Lunar lander in 2025 for Lunar explorations. For the success of the planned Lunar exploration, we need to enhance the required deep space communication technologies. To achieve our goals, we should develop space communications system and Korean DSN (deep space network) based on experiences and technologies through cooperation with the advanced countries in the field of deep space exploration. In this paper, we investigate overseas DSNs and deep space communication systems, and present the link margin and other technical requirements for successful DSN deployment. In addition, we propose a best strategy to secure domestic ground stations for the Korean Lunar exploration missions.
Keywords
Space communications; Deep space network; Lunar explorations; Link margin;
Citations & Related Records
연도 인용수 순위
  • Reference
1 김광영, “차세대 위성통신공학”, 진한도서, pp. 211-215, 2003년
2 H. G. Kim et al., "Construction of theKorean VLBI Network(KVN)”, APRASC, 2004,pp. 409-411.
3 한국전파진흥협회, “대한민국 주파수 분배표”, 2005년
4 H. Hirosawa et al., "The Satellite TrackingStation with a 34m Diameter Antenna at theKagoshima Space Center”, Institute of Spaceand Astronautical Science, vol. 123, Jan. 2003.
5 J. Li, “The Chinese VLBI Network and itsContribution to Chang’E-1”, 5th IVS GM, St.Petersburg, Russia, Mar. 3-6, 2008.
6 Hayashi et al., "Japanese Deep SpaceStation with 64-m-Diameter Antenna Fedthrough Beam Waveguides and its MissionApplications”, ISAS, vol. 123, pp. 1-33, Mar.2003.
7 W. S. Tai, "Deep Space Network ServicesCatalog”, Document no. 820-100, Rev. E, JetPropulsion Laboratory, NASA, Jul. 2007.
8 ISRO - Indian Deep Space Network(IDSN),Nov. 2008 http://isro.org/chandrayaan/htmls/ground_segment_spacenetwork.htm
9 Williams, Dr. David R., "Moon FactSheet”, NASA, Feb. 2006.
10 Slobin, S. 810-005, 104, JPL, Sep. 2008.
11 "Radio Frequency and ModulationSystems-Part 1: Earth Stations and Spacecraft.Recommendation for Space Data SystemStandards”, Blue Book CCSDS 401.0-B, Dec.2007.
12 D. PARK, "Analysis on receivingperformance degradatioin of ground station inlunar mission", IAC-09, Aug. 2009.
13 Sniffin, R. W. 810-005, 205, JPL, Dec. 2002.
14 “Propagation Data and predictionMethods Required for the Design ofearth-Space telecommunication Systems”, ITU-R Recommendation P. 618-8, 2003.
15 D. Roddy, “Satellite Communications”,Mc-Graw Hill, pp. 351-367, Jul. 2006.
16 Proakis, "Digital Communications (NewYork: McGraw-Hill)", pp. 194, 2008.
17 이정배, 백현철, 김은규, “세계 지상국 동향 분석”, 항공우주산업기술동향 3권 1호, 한국항공우주연구원, pp. 99-107, 2005년   과학기술학회마을
18 W. S. Tai, "Deep Space Network ServicesCatalog”, Document no. 820-100, Rev. E, JetPropulsion Laboratory, NASA, Jul. 2007
19 이상률, “우리나라 달 탐사의 기술 개발 방향”, KSAS 매거진 3권 1호, 한국항공우주학회, pp. 51-57, 2009년
20 심은섭, “달 탐사위성 개발 현황”, 항공우주산업기술동향 5권 1호, 한국항공우주연구원, pp. 39-55, 2007년   과학기술학회마을
21 B. H. Foing et al., “SMART-1 missionoverview from launch, Lunar orbit to impact”,ESTEC Lunar and Planetary Science XXXVIII,Noordwijk, Europe, 2007
22 교육과학기술부, "Space Vision 2016, 제 1 차 우주개발 진흥기본계획", 2008년
23 ESA Spacecraft Operations, ESTRACK tracking stations, Jan. 2008 http://www.esa.int/SPECIALS/Operations/SEM8YCSMTWE_0.html
24 V. Ivashkin, “International LunarObservatory”, International Lunar ObservatoryAdvisory Committee Workshop, Moscow,Russia, Nov. 2005.