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A Study on Lunar Orbit Insertion Maneuver using Finite Burn Model  

Choi, Sujin (달탐사체계팀)
Bae, Jonghee (달탐사체계팀)
Kim, Eunhyeuk (달탐사체계팀)
Publication Information
Aerospace Engineering and Technology / v.13, no.1, 2014 , pp. 96-107 More about this Journal
Abstract
Korea Aerospace Research Institute has a plan to launch experimental lunar orbiter in 2017, and lunar orbiter and lander in 2020. In the mission planning phase, LOI(Lunar Orbit Insertion) maneuver strategy should be designed using finite burn model because on-board propulsion system of lunar orbiter in finite burn type. LOI maneuver plan and amount of required ${\Delta}V$ using finite burn model depend on the spacecraft attitude at burn, a type of propellant, thrust level and burn timing. This paper describes the LOI maneuver of lunar orbiter of foreign space agency and then comes up with the LOI maneuver plan of Korean lunar orbiter. Adequate thrust level and burn duration of Korean lunar orbiter also present by performing simulation.
Keywords
Lunar Orbiter; lunar orbit insertion; finite burn model; delta-V;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Young-Joo Song, Sang-Young Park, "Analysis of Delta-V Losses During Lunar Capture Sequence Using Finite Burn", JASS, 28(3), 2011.
2 David Lozier & Ken Galal, "Lunar Prospector Mission Design and Trajectory Support", AAS, 1998.
3 Lunar Prospector Mission Handbook, April 10, 1998.
4 Martin B. Joughton, Craig R. Tooley, Richard S. Saylor, "Mission Design and Operations Considerations for NASA's Lunar Reconnaissance Orbiter", 58th IAC, Sep 2007, Hyderabad, India.
5 Michael Measarch, Mark Beckman, "Maneuver Operations Results from the Lunar Reconnaissance Orbiter(LRO) Mission", SpaceOps, May 2010, Huntsville, Alabama.
6 Takaaki Katoh, Hiroshi Terada, "Orbital Maneuver Plan and Operation Results of "KAGUYA" during Lunar Transfer Orbit and Lunar Orbit Injection", ISTS, Jun 2008, Hamamatsu.
7 Shuichi Matsumoto, Mina Ogawa, "Flight Results of Selenological and Engineering Explorer "KAGUYA" on Lunar Orbiter", ISSFD, Sep 2009, Toulouse.
8 Ralph B. Roncoli, Kenneth K. Jujii, "Mission Design Overview for the Gravity Recovery and Interior Laboratory(GRAIL) Mission", AAS, Aug 2010, Toronto.
9 한국항공우주연구원, "한국형 달 탐사를 위한 기획연구", 2013, pp. 27.
10 최수진, 송영주, 배종희, 김은혁, 주광혁, "직접 전이궤적을 이용한 한국형 달 궤도선의 임무설계 및 분석", 한국항공우주학회지, 제 41권 12호, 2013, pp. 950-958.