350 rub
Journal Achievements of Modern Radioelectronics №12 for 2018 г.
Article in number:
Forecasting the availability of the radio navigational field of global satellite systems for a given location accuracy
Type of article: scientific article
DOI: 10.18127/j20700784–201812–28
UDC: 621.396
Keywords: global navigation satellite system GLONASS GPS Galileo positional service availability accuracy of position measurement.
Authors:

S.А. Yakushenko – Ph.D. (Eng.), Associate Professor, Professor of the Department, FSPEI HPE Military Telecommunications Academy (St. Petersburg)

E-mail: was16@mail.ru

D.V. Sal'nikov – Ph.D. (Eng.), Senior Lecturer, FSPEI HPE Military Telecommunications Academy (St. Petersburg) E-mail: denis_salnikov@mail.ru

I.S. Meshkov – Adjunct, FSPEI HPE Military Telecommunications Academy (St. Petersburg)

E-mail: ilya.meshkov.1987@mail.ru

А.N. Frolov – Deputy Technical Director, JSC «SPE «Radiosvyaz» (Krasnoyarsk) E-mail: engineer_f@mail.ru

Abstract:

The authors of this article have developed a number of programs that simulate the calculation of the position of navigation satellites for global navigation satellite systems based on the initial data of the almanacs. These programs allow you to calculate the geometry factor for any point on the earth's surface, taking into account the budget errors. The method of forecasting the availability of global navigation satellite systems is studied with observance of the specified accuracy. The results of calculating the availability of global navigation satellite systems over space are obtained, the shapes of the areas of the earth's surface are analyzed on which different values of the accuracy requirements for position measurement are provided.

Pages: 141-144
References
  1. GOST R 52928 - 2010. Nacional'nyj standart Rossijskoj federacii Sistema sputnikovaya navigacionnaya global'naya. Vzamen GOST 52928 - 2008/ Vved. 09.11.10. M.: Standartinform, 2011.
  2. Metodicheskie rekomendacii po provedeniyu geodezicheskoj s'emki ANO na grazhdanskih aerodromah i vozdushnyh trassah Rossii. Prilozhenie k rasporyazheniyu Mintransa Rossii ot 4 aprelya 2003 g. № KR-14 r.
  3. Perov A.I., Harisov V.N. GLONASS. Principy postroeniya i funkcionirovaniya. Izd. 4–e, pererab. i dop. M.: Radiotehnika. 2010.
  4. Yacenkov V.S. Osnovy sputnikovoj navigacii. Sistemy GPS NAVSTAR i GLONASS. M: Goryachaya liniya-Telekom. 2005.
  5. Perov A.I. Osnovy postroeniya sputnikovyh radionavigacionnyh sistem. M.: Radiotehnika. 2012.
  6. GOST 52865 - 2009 Nacional'nyj standart Rossijskoj federacii Parametry radionavigacionnogo polya. Vzamen GOST 52865 - 2007. Vved. 15.12.09. M.: Standartinform, 2010.
  7. Yakushenko S.A., Kurmanaeva A.F. Analiz harakteristik navigacionnoj apparatury potrebitelya (NAP) dlya polevyh podvizhnyh ob'ektov (PO) / Mezhdunar. nauch. izdanie. Sb. nauch. trudov SWorld. 2013. Vyp. 4. T. 7 Odessa: SV. S. 72–78.
Date of receipt: 15 ноября 2018 г.