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NTIS 바로가기Journal of Positioning, Navigation, and Timing, v.12 no.4, 2023년, pp.335 - 342
Hojoon Jeong (Department of Aerospace Engineering and the Institute of Advanced Aerospace Technology, Seoul National University) , Jaeuk Park (Department of Aerospace Engineering and the Institute of Advanced Aerospace Technology, Seoul National University) , Junwon Song (Interdisciplinary Program in Space Systems, Seoul National University) , Minjae Kang (Interdisciplinary Program in Space Systems, Seoul National University) , Changdon Kee (Department of Aerospace Engineering and the Institute of Advanced Aerospace Technology, Seoul National University)
Lunar Navigation Satellite System refers to a constellation of satellite providing PNT services on the moon. LNSS consists of main satellite and navigation satellites. Navigation satellites orbiting around the moon and a main satellite moves the area between the moon and the L2 point. The navigation...
Bhamidipati, S., Mina, T., & Gao, G. 2021, Design?considerations of a lunar navigation satellite system?with time-transfer from earth-GPS, Proceedings of the?34th International Technical Meeting of the Satellite?Division of the Institute of Navigation (ION GNSS+ 2021), St. Louis, Missouri, Sep 20-24 2021, pp.950-965.?https://doi.org/10.33012/2021.18021
Folkner, W. M., Williams, J. G., & Boggs, D. H. 2009, The?planetary and lunar ephemeris DE 421, IPN Progress?Report 42-178, 005, 1-34. http://tmo.jpl.nasa.gov/progress_report/42-178/178C.pdf
Goddard Space Flight Center 2008, A Standardized Lunar?Coordinate System for Lunar Reconnaissance Orbiter?and Lunar Datasets, 13.
Grebow, D. J. 2006, Generating Periodic Orbits in the?Circular Restricted Three-Body Problem with?Applications to Lunar South Pole Coverage, Master's?degree, Purdue University, USA.
Howell, K. C. & Breakwell, J. V. 1984, Almost rectilinear?halo orbits, Celestial Mechanics, 32, 29-52. https://doi.org/10.1007/BF01358402
Klokocnik, J., Kostelecky, J., Cilek, V., Kletetschka, G., &?Bezdek, A. 2022, Gravity aspects from recent gravity?field model GRGM1200A of the Moon and analysis of?magnetic data, Icarus, 384. https://doi.org/10.1016/j.icarus.2022.115086
Lanyi, G. E., Border, J. S., & Shin, D. K. 2008, Radiometric?tracking for deep space navigation, Proceedings of?the 2008 National Technical Meeting of The Institute?of Navigation, San Diego, CA, Jan 28-30 2008, pp86-90. https://www.ion.org/publications/abstract.cfm?articleID7665
Nie, T. & Gurfil, P. 2018, Lunar frozen orbits revisited, In?Celestial Mechanics and Dynamical Astronomy, 130,?Article number: 61. https://doi.org/10.1007/s10569-018-9858-0
Standish, E. M. & Williams, J. G. 2012, Orbital Ephemerides?of the Sun, Moon, and Planets. In Explanatory?Supplement to the Astronomical Almanac, 3rd ed.?eds. Urban, S. E., Seidelmann, P. K. (Herdon, VA, USA:?University Science Books), pp.305-364.
Taylor, D. B., Bell, S., Hilton, J. L., & Sinclair, A. T. 2010,?Computation of the Quantities Describing the Lunar?Librations in the Astronomical Almanac, Technical?Note No.74, pp.1-10.
Vallado, D. A. 2013, Fundamentals of Astrodynamics and?Applications, 4th ed. (Portland: Microcosm Press)
Ye, H., Guo, H., Liu, G., & Ren, Y. 2018, Observation duration?analysis for Earth surface features from a Moon-based?platform, Advances in Space Research, 62, 274-287.?https://doi.org/10.1016/j.asr.2018.04.029
Zimovan, E. M. 2017, Characteristics and design strategies?for Near Rectilinear Halo Orbits Within the Earth-Moon?System, Master's degree, Purdue University, USA
Zimovan, E. M., Howell, K. C., & Davis, D. C. 2017, Near?rectilinear halo orbits and their application in CIS-Lunar space, 3rd International Academy of Astronautics?Conference on Dynamics and Control of Space Systems,?Moscow, Russia, May 30 - June 1 2017.
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