Development of Precise Lunar Orbit Propagator and Lunar Polar Orbiter’s Lifetime Analysis
To prepare for a Korean lunar orbiter mission, a precise lunar orbit propagator; Yonsei precise lunar orbit propagator (YSPLOP) is developed. In the propagator, accelerations due to the Moon’s non-spherical gravity, the point masses of the Earth, Moon, Sun, Mars, Jupiter and also, solar radiation...
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Korean Space Science Society (KSSS)
2010-06-01
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| Series: | Journal of Astronomy and Space Sciences |
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| Online Access: | http://ocean.kisti.re.kr/downfile/volume/kosss/OJOOBS/2010/v27n2/OJOOBS_2010_v27n2_97.pdf |
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doaj-9cd68296b76f46b99ab4d4db1ca34e712020-11-25T02:27:44ZengKorean Space Science Society (KSSS)Journal of Astronomy and Space Sciences2093-55872093-14092010-06-012729710610.5140/JASS.2010.27.2.097Development of Precise Lunar Orbit Propagator and Lunar Polar Orbiter’s Lifetime AnalysisYoung-Joo Song0Sang-Young Park1Hae-Dong Kim2Eun-Sup Sim3Astrodyanmics and Control Lab., Department of Astronomy, Yonsei University, Seoul 120-749, KoreaAstrodyanmics and Control Lab., Department of Astronomy, Yonsei University, Seoul 120-749, KoreaKorea Aerospace Research Institute, Deajeon 305-600, KoreaKorea Aerospace Research Institute, Deajeon 305-600, KoreaTo prepare for a Korean lunar orbiter mission, a precise lunar orbit propagator; Yonsei precise lunar orbit propagator (YSPLOP) is developed. In the propagator, accelerations due to the Moon’s non-spherical gravity, the point masses of the Earth, Moon, Sun, Mars, Jupiter and also, solar radiation pressures can be included. The developed propagator’s performance is validated and propagation errors between YSPOLP and STK/Astrogator are found to have about maximum 4-m, in along-track direction during 30 days (Earth’s time) of propagation. Also, it is found that the lifetime of a lunar polar orbiter is strongly affected by the different degrees and orders of the lunar gravity model, by a third body’s gravitational attractions (especially the Earth), and by the different orbital inclinations. The reliable lifetime of circular lunar polar orbiter at about 100 km altitude is estimated to have about 160 days (Earth’s time). However, to estimate the reasonable lifetime of circular lunar polar orbiter at about 100 km altitude, it is strongly recommended to consider at least 50 × 50 degrees and orders of the lunar gravity field. The results provided in this paper are expected to make further progress in the design fields of Korea’s lunar orbiter missions.http://ocean.kisti.re.kr/downfile/volume/kosss/OJOOBS/2010/v27n2/OJOOBS_2010_v27n2_97.pdflunar orbiterlunar polar orbitlunar gravity field modellifetime |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Young-Joo Song Sang-Young Park Hae-Dong Kim Eun-Sup Sim |
| spellingShingle |
Young-Joo Song Sang-Young Park Hae-Dong Kim Eun-Sup Sim Development of Precise Lunar Orbit Propagator and Lunar Polar Orbiter’s Lifetime Analysis Journal of Astronomy and Space Sciences lunar orbiter lunar polar orbit lunar gravity field model lifetime |
| author_facet |
Young-Joo Song Sang-Young Park Hae-Dong Kim Eun-Sup Sim |
| author_sort |
Young-Joo Song |
| title |
Development of Precise Lunar Orbit Propagator and Lunar Polar Orbiter’s Lifetime Analysis |
| title_short |
Development of Precise Lunar Orbit Propagator and Lunar Polar Orbiter’s Lifetime Analysis |
| title_full |
Development of Precise Lunar Orbit Propagator and Lunar Polar Orbiter’s Lifetime Analysis |
| title_fullStr |
Development of Precise Lunar Orbit Propagator and Lunar Polar Orbiter’s Lifetime Analysis |
| title_full_unstemmed |
Development of Precise Lunar Orbit Propagator and Lunar Polar Orbiter’s Lifetime Analysis |
| title_sort |
development of precise lunar orbit propagator and lunar polar orbiter’s lifetime analysis |
| publisher |
Korean Space Science Society (KSSS) |
| series |
Journal of Astronomy and Space Sciences |
| issn |
2093-5587 2093-1409 |
| publishDate |
2010-06-01 |
| description |
To prepare for a Korean lunar orbiter mission, a precise lunar orbit propagator; Yonsei precise lunar orbit propagator
(YSPLOP) is developed. In the propagator, accelerations due to the Moon’s non-spherical gravity, the point masses of
the Earth, Moon, Sun, Mars, Jupiter and also, solar radiation pressures can be included. The developed propagator’s
performance is validated and propagation errors between YSPOLP and STK/Astrogator are found to have about maximum
4-m, in along-track direction during 30 days (Earth’s time) of propagation. Also, it is found that the lifetime of a
lunar polar orbiter is strongly affected by the different degrees and orders of the lunar gravity model, by a third body’s
gravitational attractions (especially the Earth), and by the different orbital inclinations. The reliable lifetime of circular
lunar polar orbiter at about 100 km altitude is estimated to have about 160 days (Earth’s time). However, to estimate the
reasonable lifetime of circular lunar polar orbiter at about 100 km altitude, it is strongly recommended to consider at
least 50 × 50 degrees and orders of the lunar gravity field. The results provided in this paper are expected to make further
progress in the design fields of Korea’s lunar orbiter missions. |
| topic |
lunar orbiter lunar polar orbit lunar gravity field model lifetime |
| url |
http://ocean.kisti.re.kr/downfile/volume/kosss/OJOOBS/2010/v27n2/OJOOBS_2010_v27n2_97.pdf |
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AT youngjoosong developmentofpreciselunarorbitpropagatorandlunarpolarorbiterslifetimeanalysis AT sangyoungpark developmentofpreciselunarorbitpropagatorandlunarpolarorbiterslifetimeanalysis AT haedongkim developmentofpreciselunarorbitpropagatorandlunarpolarorbiterslifetimeanalysis AT eunsupsim developmentofpreciselunarorbitpropagatorandlunarpolarorbiterslifetimeanalysis |
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