Report for the scientific sojourn at the German Aerospace Center (DLR) , Germany, during June and July 2006. The main objective of the two months stay has been to apply the techniques of LEO (Low Earth Orbiters) satellites GPS navigation which DLR currently uses in real time navigation. These techniques comprise the use of a dynamical model which takes into account the precise earth gravity field and models to account for the effects which perturb the LEO’s motion (such as drag forces due to earth’s atmosphere, solar pressure, due to the solar radiation impacting on the spacecraft, luni-solar gravity, due to the perturbation of the gravity field for the sun and moon attraction, and tidal forces, due to the ocean and solid tides). A high p...
The paper presents results of precise orbit and Earth parameter determination based on full-scale si...
Precise Orbit Determination (POD) is an integral part for analyzing measurements from space geodetic...
Technology currently is available to support real-time onboard knowledge of the position of a low Ea...
Since its origin, the navigation services provided by the GNSS system have been applied to a variety...
Many low Earth orbiting (LEO) satellites are nowadays equipped with on-board receivers to collect th...
Continued advancements in remote sensing technology along with a trend towards highly autonomous spa...
The use of Global Positioning System (GPS) observables provides the primary and advantageous techniq...
Precise, a posteriori orbit determination is required for a wide variety of spaceborne scientific ap...
An ever increasing number of low Earth orbiting (LEO) satellites is, or will be, equipped with retro...
The main challenge of precise point positioning (PPP) applications is the long convergence time of t...
Recent advances in spaceborne GPS technology have shown significant advantages in many aspects over ...
The need for precise orbit determination (POD) has grown significantly due to the increased amount o...
The modelling of non-gravitational forces acting on a satellite (especially a GNSS satellite) starte...
Two approaches are discussed for the estimation and prediction of the orbits of low earth orbit (LEO...
Global Navigation Satellite Systems (GNSS) have an endless number of applications in industry, scien...
The paper presents results of precise orbit and Earth parameter determination based on full-scale si...
Precise Orbit Determination (POD) is an integral part for analyzing measurements from space geodetic...
Technology currently is available to support real-time onboard knowledge of the position of a low Ea...
Since its origin, the navigation services provided by the GNSS system have been applied to a variety...
Many low Earth orbiting (LEO) satellites are nowadays equipped with on-board receivers to collect th...
Continued advancements in remote sensing technology along with a trend towards highly autonomous spa...
The use of Global Positioning System (GPS) observables provides the primary and advantageous techniq...
Precise, a posteriori orbit determination is required for a wide variety of spaceborne scientific ap...
An ever increasing number of low Earth orbiting (LEO) satellites is, or will be, equipped with retro...
The main challenge of precise point positioning (PPP) applications is the long convergence time of t...
Recent advances in spaceborne GPS technology have shown significant advantages in many aspects over ...
The need for precise orbit determination (POD) has grown significantly due to the increased amount o...
The modelling of non-gravitational forces acting on a satellite (especially a GNSS satellite) starte...
Two approaches are discussed for the estimation and prediction of the orbits of low earth orbit (LEO...
Global Navigation Satellite Systems (GNSS) have an endless number of applications in industry, scien...
The paper presents results of precise orbit and Earth parameter determination based on full-scale si...
Precise Orbit Determination (POD) is an integral part for analyzing measurements from space geodetic...
Technology currently is available to support real-time onboard knowledge of the position of a low Ea...