Onboard time synchronization is an important requirement for a wide range of low Earth orbit (LEO) missions such as altimetry or communication services, and extends to future position, navigation, and timing (PNT) services in LEO. For GNSS-based time synchronization, continuous knowledge about the satellite's position is required and, eventually, the quality of the position solution defines the timing precision attainable through GNSS measurements. Previous research has shown that real-time GNSS orbit determination of LEO satellites can achieve decimeter-level accuracy. This paper characterizes the performance of GNSS-based real-time clock synchronization in LEO using the satellite Sentinel-6A as a real-world case study. The satellite's ult...
Since its origin, the navigation services provided by the GNSS system have been applied to a variety...
In recent years, low Earth orbit (LEO) satellites have been frequently discussed for their benefits ...
The processing of radio-occultation (RO) observations for numerical weather prediction relies on a n...
Onboard time synchronization is an important requirement for a wide range of low Earth orbit (LEO) m...
Continued advancements in remote sensing technology along with a trend towards highly autonomous spa...
Signals from the emerging Low Earth Orbit (LEO) satellites from mega-constellations that broadcast i...
Two approaches are discussed for the estimation and prediction of the orbits of low earth orbit (LEO...
The positioning service aided by low Earth orbit (LEO) mega-constellations has become a hot topic in...
High-accuracy Low Earth Orbit (LEO) satellite clock and orbital products are preconditions to realiz...
Precise Point Positing (PPP) with real-time orbit and clock correction streams has become an establi...
Low Earth orbit (LEO) satellites inherently possess desirable attributes for navigation: (i) abundan...
In order to maintain optimal signal coverage, GNSS satellites have to experience orbital maneuvers. ...
In GNSS-based navigation onboard Low Earth Orbit (LEO) satellites, typical accuracy requirements are...
The paper presents results of precise orbit and Earth parameter determination based on full-scale si...
Real-time satellite orbit and clock estimations are the prerequisite for Global Navigation Satellite...
Since its origin, the navigation services provided by the GNSS system have been applied to a variety...
In recent years, low Earth orbit (LEO) satellites have been frequently discussed for their benefits ...
The processing of radio-occultation (RO) observations for numerical weather prediction relies on a n...
Onboard time synchronization is an important requirement for a wide range of low Earth orbit (LEO) m...
Continued advancements in remote sensing technology along with a trend towards highly autonomous spa...
Signals from the emerging Low Earth Orbit (LEO) satellites from mega-constellations that broadcast i...
Two approaches are discussed for the estimation and prediction of the orbits of low earth orbit (LEO...
The positioning service aided by low Earth orbit (LEO) mega-constellations has become a hot topic in...
High-accuracy Low Earth Orbit (LEO) satellite clock and orbital products are preconditions to realiz...
Precise Point Positing (PPP) with real-time orbit and clock correction streams has become an establi...
Low Earth orbit (LEO) satellites inherently possess desirable attributes for navigation: (i) abundan...
In order to maintain optimal signal coverage, GNSS satellites have to experience orbital maneuvers. ...
In GNSS-based navigation onboard Low Earth Orbit (LEO) satellites, typical accuracy requirements are...
The paper presents results of precise orbit and Earth parameter determination based on full-scale si...
Real-time satellite orbit and clock estimations are the prerequisite for Global Navigation Satellite...
Since its origin, the navigation services provided by the GNSS system have been applied to a variety...
In recent years, low Earth orbit (LEO) satellites have been frequently discussed for their benefits ...
The processing of radio-occultation (RO) observations for numerical weather prediction relies on a n...