A method to predict satellite orbits in a GPS device without a network connection is presented. The motivation for this work was to improve the startup performance of a navigation device without Assisted GPS. Tests of our algorithm show that in 95% of the cases the error in satellite’s predicted position stays under 21 meters for one day and under 94 meters for three days.Non peer reviewe
Autonomous orbit determination could help reducing the growing load on ground-based deep space netwo...
Precise orbit determination is vital for the increasingly vast number of space objects around the Ea...
This paper presents a method for improving the accuracy of extended GNSS satellite orbit predictions...
A method to predict satellite orbits in a GPS device without a network connection is presented. The ...
Time to first fix (TTFF) is one of the crucial indicators to evaluate the performance of a GPS recei...
This paper addresses the problem of orbit prediction and its impact on flight dynamics operations. I...
The number of satellites and debris in space is dangerously increasing through the years. For that r...
GNSS satellite orbits can be predicted by integrating the satellites’ equation of motion. If the pre...
In self-assisted GNSS the orbit of a satellite is predicted by solving the differential equation tha...
We present a method for improving autonomous GNSS satellite orbit prediction accuracy by including l...
China's COMPASS satellite navigation system relies on a regional tracking network to provide nav...
This paper proposed the high-precision satellite orbit prediction process at the user end for the re...
Recent advances in spaceborne GPS technology have shown significant advantages in many aspects over ...
Development of a tool that predicts the orbital parameters of a satellite from an initial state vect...
In this thesis the orbit of a GPS satellite is predicted by formulating its equation of motion and s...
Autonomous orbit determination could help reducing the growing load on ground-based deep space netwo...
Precise orbit determination is vital for the increasingly vast number of space objects around the Ea...
This paper presents a method for improving the accuracy of extended GNSS satellite orbit predictions...
A method to predict satellite orbits in a GPS device without a network connection is presented. The ...
Time to first fix (TTFF) is one of the crucial indicators to evaluate the performance of a GPS recei...
This paper addresses the problem of orbit prediction and its impact on flight dynamics operations. I...
The number of satellites and debris in space is dangerously increasing through the years. For that r...
GNSS satellite orbits can be predicted by integrating the satellites’ equation of motion. If the pre...
In self-assisted GNSS the orbit of a satellite is predicted by solving the differential equation tha...
We present a method for improving autonomous GNSS satellite orbit prediction accuracy by including l...
China's COMPASS satellite navigation system relies on a regional tracking network to provide nav...
This paper proposed the high-precision satellite orbit prediction process at the user end for the re...
Recent advances in spaceborne GPS technology have shown significant advantages in many aspects over ...
Development of a tool that predicts the orbital parameters of a satellite from an initial state vect...
In this thesis the orbit of a GPS satellite is predicted by formulating its equation of motion and s...
Autonomous orbit determination could help reducing the growing load on ground-based deep space netwo...
Precise orbit determination is vital for the increasingly vast number of space objects around the Ea...
This paper presents a method for improving the accuracy of extended GNSS satellite orbit predictions...