Journal Achievements of Modern Radioelectronics №2 for 2018 г.
Article in number:
Opportunity analysis of the real time high precision LEO satellites coordinates determination
Type of article: scientific article
UDC: 621.391
Authors:

А.А. Valaytite – Post-graduate Student, Moscow Aviation Institute (National Research University) (MAI) E-mail: alinavalaytite@gmail.com

D.P. Nikitin – Associate Professor, Moscow Aviation Institute (National Research University) (MAI) E-mail: nikitindmitriy@mail.ru

Abstract:

The analysis of the opportunity of high-accuracy coordinates determination of a low earth orbit (LEO) satellite in real time mode was carried out. The article substantiates the choice of the kinematic method for real-time calculating the position of LEO satellites. The analysis of the existing kinematic methods for calculating of the navigation receiver position was carried out. To obtain experimental results, a method was developed and research was carried out, and also the numerical results were obtained that characterize the accuracy of position determination using various types of high-precision ephemeris information.

Pages: 22-31
References
  1. Boriskin A.D., Vejcel' A.V., Vejcel' V.A. i dr. Apparatura vysokotochnogo pozicionirovanija po signalam global'nyh navigacionnyh sputnikovyh sistem: priemniki-potrebiteli navigacionnoj informacii / Pod red. M.I. Zhodzishskogo. MAI-PRINT. 2010.
  2. Liu, Xianglin. PhD: Global Gravity Field Recovery from Satellite-to-Satellite Tracking Data with the Acceleration Approach. ISBN 978 90 6132 309 6.
  3. GLONASS. Principy postroenija i funkcionirovanija / Pod red. A.I. Perova, V.N. Harisova. M.: Radiotehnika. 2010.
  4. Parkinson B., Spilker J. Global Positioning System: Theory and Practice. V. I, II. Washington, DC: American Institute of Aeronautics and Astronautics. 1996.
  5. Rodrigo F. Leandro. Precise point positioning with GPS a new approach for positioning, atmospheric studies, and signal analysis // Department of Geodesy and Geomatics Engineering University of New Brunswick. 2009.
  6. Podkorytov A.N. Vysokotochnoe opredelenie koordinat potrebitelja v global'nyh navigacionnyh sputnikovyh sistemah c ispol'zovaniem utochnennoj jefemeridno-vremennoj informacii // Vestnik Moskovskogo aviacionnogo instituta. M.: MAI. 2011. № 3. T. 18. S. 233–239.
  7. Podkorytov A.N. Vysokotochnoe mestoopredelenie v absoljutnom rezhime v GNSS s ispol'zovaniem razreshenija celochislennoj neodnoznachnosti psevdofazovyh izmerenij // Jelektronnyj zhurnal «Trudy MAI». № 59.
  8. Nikitin D.P., Valajtite A.A. Analiz kachestva vysokotochnoj jefemeridno-vremennoj informacii dlja opredelenija koordinat nizkoorbital'nyh kosmicheskih apparatov // Jelektrosvjaz'. 2016. № 11. S. 18–24.
  9. Nikitin D.P., Valajtite A.A. Algoritm vysokotochnogo absoljutnogo mestoopredelenija po signalam GNSS dlja nizkoorbital'nyh kosmicheskih apparatov // Jelektrosvjaz'. 2016. № 11. S. 12–17.
  10. Publication on Geodesy 68ESA’s Earth Observation Programmes: Advancing Earth Science Through New Sensing Technology. Ссылка активна на 16.11. 2017. URL: http://earthzine.org/2007/10/29/esas-earth-observation-programmes-advancing-earth-science-through-new-sensing-technology.
  11. Kelley Case, Gerhard Kruizinga, Sien-Chong Wu. GRACE Level 1B Data Product User Handbook. Jet Propulsion Laboratory California Institute of Technology. 2007.
  12. GRACE Products. URL: https://earth.esa.int/web/guest/data-access/browse-dataproducts?p_p_id=datasetlist_WAR_ ospportlet&missions=GRACE. Valajtite A.A., Nikitin D.P. Analiz vozmozhnosti primenenija kvazi-zenitnoj sputnikovoj sistemy QZSS v kachestve istochnika jefemeridno-vremennoj informacii dlja rezhimov vysokotochnogo mestoopredelenija // Jelektronnyj zhurnal «Trudy MAI». 2015. № 82
Date of receipt: 11 января 2018 г.