A Multisystem Software Receiver of the Global and Regional Navigation Satellite Systems
Transactions of IAA RAS, issue 44, 10–17 (2018)
DOI: 10.32876/ApplAstron.44.10-17
Keywords: multisystem software-defined receiver, navigation signals, global navigation satellite system.
About the paper Full textAbstract
A joint software processing the signals received from the global (GLONASS, GPS, BeiDou, Galileo) and regional (IRNSS) navigation satellite systems are considered in this article. A generalized block diagram of the realized model of the software-defined multisystem navigation receiver is presented. Its possibilities to process signals of the navigation systems are considered in four frequency beams: L1 GLONASS/GPS, E5a Galileo (L5 IRNSS) and E5b Galileo (B2 BeiDou). Separate and joint solutions are worked out as a result of processing the signals received in the northwest of the Russian Federation from 30 satellites of 5 different navigation systems. The accuracy of the obtained solutions and values of the geometric dilution of precision are analyzed.
Citation
V. S. Baholdin, D. A. Gavrilov, I. S. Gerasimenko, V. A. Dobrikov, V. F. Ivanov. A Multisystem Software Receiver of the Global and Regional Navigation Satellite Systems // Transactions of IAA RAS. — 2018. — Issue 44. — P. 10–17.
@article{baholdin2018,
abstract = {A joint software processing the signals received from the global (GLONASS, GPS, BeiDou, Galileo) and regional (IRNSS) navigation satellite systems are considered in this article.
A generalized block diagram of the realized model of the software-defined multisystem navigation receiver is presented. Its possibilities to process signals of the navigation systems are considered in four frequency beams: L1 GLONASS/GPS, E5a Galileo (L5 IRNSS) and E5b Galileo (B2 BeiDou).
Separate and joint solutions are worked out as a result of processing the signals received in the northwest of the Russian Federation from 30 satellites of 5 different navigation systems. The accuracy of the obtained solutions and values of the geometric dilution of precision are analyzed.},
author = {V.~S. Baholdin and D.~A. Gavrilov and I.~S. Gerasimenko and V.~A. Dobrikov and V.~F. Ivanov},
doi = {10.32876/ApplAstron.44.10-17},
issue = {44},
journal = {Transactions of IAA RAS},
keyword = {multisystem software-defined receiver, navigation signals, global navigation satellite system},
pages = {10--17},
title = {A Multisystem Software Receiver of the Global and Regional Navigation Satellite Systems},
url = {http://iaaras.ru/en/library/paper/1790/},
year = {2018}
}
TY - JOUR
TI - A Multisystem Software Receiver of the Global and Regional Navigation Satellite Systems
AU - Baholdin, V. S.
AU - Gavrilov, D. A.
AU - Gerasimenko, I. S.
AU - Dobrikov, V. A.
AU - Ivanov, V. F.
PY - 2018
T2 - Transactions of IAA RAS
IS - 44
SP - 10
AB - A joint software processing the signals received from the global
(GLONASS, GPS, BeiDou, Galileo) and regional (IRNSS) navigation
satellite systems are considered in this article. A generalized
block diagram of the realized model of the software-defined
multisystem navigation receiver is presented. Its possibilities to
process signals of the navigation systems are considered in four
frequency beams: L1 GLONASS/GPS, E5a Galileo (L5 IRNSS) and E5b
Galileo (B2 BeiDou). Separate and joint solutions are worked out as
a result of processing the signals received in the northwest of the
Russian Federation from 30 satellites of 5 different navigation
systems. The accuracy of the obtained solutions and values of the
geometric dilution of precision are analyzed.
DO - 10.32876/ApplAstron.44.10-17
UR - http://iaaras.ru/en/library/paper/1790/
ER -