Although in accuracy parameters GLONASS is correlated with GPS, using GLONASS signals for high-precision clock synchronization was, up to the recent time, of limited utility due to the lack of specialized time receivers. In order to improve this situation, in late 1992 the Russian Institute of Radionavigation and Time (RMT) began to develop a GLONASS time receiver using as a basis the airborne ASN-16 receiver. This paper presents results of estimating user clock synchronization accuracy via GLONASS signals using ASN-16 receiver in the direct synchronization and common-view modes
International time transfer based on Global Navigation Satellite System (GLONASS) precise point posi...
The Global Positioning System (GPS) has been an undoubted success and a great many applications have...
In recent years, with the development of satellite orbit and clock parameters accurately determining...
The article deals with the ways of improving the accuracy of comparison of time scales of frequency ...
This paper considers basic methods for high-precision synchronization of spatially-distributed refer...
It has already been shown than even with a simple daily averaging of GLONASS data at each site, cont...
In aflrst attempt to evaluate perforntance of the GLONASS P-code time transfer, one-site measurement...
The frequency stability and reliability of the clocks are critical to the success of the GPS and GLO...
Research has demonstrated that receiver clock modeling can reduce the correlation coefficients among...
The American Global Positioning System (GPS) has served the principal needs of national timing labor...
The Russian GLONASS navigation system, although not yet finished, provides interesting opportunities...
The determination of position and time as well as navigation by means of a Global Navigation Satelli...
The paper focuses on using GLONASS in state-of-the-art combined GNSS (GPS/GLONASS) receivers. The la...
Onboard time synchronization is an important requirement for a wide range of low Earth orbit (LEO) m...
Currently, one of the topical issues of improving GLONASS system is modernization of its uniformity ...
International time transfer based on Global Navigation Satellite System (GLONASS) precise point posi...
The Global Positioning System (GPS) has been an undoubted success and a great many applications have...
In recent years, with the development of satellite orbit and clock parameters accurately determining...
The article deals with the ways of improving the accuracy of comparison of time scales of frequency ...
This paper considers basic methods for high-precision synchronization of spatially-distributed refer...
It has already been shown than even with a simple daily averaging of GLONASS data at each site, cont...
In aflrst attempt to evaluate perforntance of the GLONASS P-code time transfer, one-site measurement...
The frequency stability and reliability of the clocks are critical to the success of the GPS and GLO...
Research has demonstrated that receiver clock modeling can reduce the correlation coefficients among...
The American Global Positioning System (GPS) has served the principal needs of national timing labor...
The Russian GLONASS navigation system, although not yet finished, provides interesting opportunities...
The determination of position and time as well as navigation by means of a Global Navigation Satelli...
The paper focuses on using GLONASS in state-of-the-art combined GNSS (GPS/GLONASS) receivers. The la...
Onboard time synchronization is an important requirement for a wide range of low Earth orbit (LEO) m...
Currently, one of the topical issues of improving GLONASS system is modernization of its uniformity ...
International time transfer based on Global Navigation Satellite System (GLONASS) precise point posi...
The Global Positioning System (GPS) has been an undoubted success and a great many applications have...
In recent years, with the development of satellite orbit and clock parameters accurately determining...