Many sophisticated Global Navigation Satellite System (GNSS) applications require high-precision satellite orbit and clock products. The GNSS orbits and clocks are usually derived from the analysis of tracking data collected by a globally distributed GNSS receiver network. The estimation process adjusts parameters for the satellite orbits, transmitter and receiver clocks, station positions, tropospheric delays, Earth orientation, intersystem and interfrequency biases, and carrier-phase ambiguities. The estimation requires detailed modeling of geophysical processes, atmospheric and relativistic effects, receiver tracking modes, antenna phase centers, spacecraft properties, and attitude control algorithms. This chapter describes precise orbi...
This paper describes a GPS receiver clock model that can improve the accuracy of kinematic orbit det...
Until quite recently the precise applications for Global Navigation Satellite Systems (GNSS) were ex...
This study proposes real-time orbit/clock determination of Korean Navigation Satellite System (KNSS)...
The processing of radio-occultation (RO) observations for numerical weather prediction relies on a n...
Time synchronization is one of the main applications of Global Navigation Satellite System (GNSS). I...
A characterization of the short-term stability of the atomic frequency standards onboard GNSS satell...
Highly accurate time and frequency synchronization is crucial for navigation. Constant improvements ...
We have developed a software package to determine high precision GPS satellite orbit and clock, usin...
In this paper, a real-time system for clock offset estimation of GPS satellites is presented. The al...
In Global Navigation Satellite Systems (GNSS) the role of atomic clocks is essential for the determi...
The analysis centers of the multi-GNSS pilot project of the International GNSS Service provide orbit...
The real-time GNSS applications are of increasing interest. The Precise Point Positioning tech-nique...
In this article, an algorithm for clock offset estimation of the GPS satellites is presented. The al...
The primary payload of a navigation satellite is its clock that is indispensable to perform precise ...
In order to obtain high quality positions from navigation satellites, range errors have to be identi...
This paper describes a GPS receiver clock model that can improve the accuracy of kinematic orbit det...
Until quite recently the precise applications for Global Navigation Satellite Systems (GNSS) were ex...
This study proposes real-time orbit/clock determination of Korean Navigation Satellite System (KNSS)...
The processing of radio-occultation (RO) observations for numerical weather prediction relies on a n...
Time synchronization is one of the main applications of Global Navigation Satellite System (GNSS). I...
A characterization of the short-term stability of the atomic frequency standards onboard GNSS satell...
Highly accurate time and frequency synchronization is crucial for navigation. Constant improvements ...
We have developed a software package to determine high precision GPS satellite orbit and clock, usin...
In this paper, a real-time system for clock offset estimation of GPS satellites is presented. The al...
In Global Navigation Satellite Systems (GNSS) the role of atomic clocks is essential for the determi...
The analysis centers of the multi-GNSS pilot project of the International GNSS Service provide orbit...
The real-time GNSS applications are of increasing interest. The Precise Point Positioning tech-nique...
In this article, an algorithm for clock offset estimation of the GPS satellites is presented. The al...
The primary payload of a navigation satellite is its clock that is indispensable to perform precise ...
In order to obtain high quality positions from navigation satellites, range errors have to be identi...
This paper describes a GPS receiver clock model that can improve the accuracy of kinematic orbit det...
Until quite recently the precise applications for Global Navigation Satellite Systems (GNSS) were ex...
This study proposes real-time orbit/clock determination of Korean Navigation Satellite System (KNSS)...