Add to ORKGIn this study, we consider the problem of predicting the orbit of a GNSS satellite with a force model that can be adjusted based on data. In autonomous prediction, the goal is to use the positioning device in a completely or mostly autonomous mode. For this, the usable time of broadcast ephemeris need to be extended and to this end, predicting the orbit of a satellite is necessary. This is done by creating a force model for the satellite. In our previous research, the force model was based on four largest forces acting on a satellite: the gravitation of the Earth, the Sun and the Moon and solar radiation pressure. The position of the satellite in the future can then be computed by integrating the equation of motion with certain initial cond...
This study aims to investigate different orbit determination algorithms for the first Turkish remote...
In this study, we consider methods of spectral analysis and deep learning to improve accuracy and qu...
The modelling of non-gravitational forces acting on a satellite (especially a GNSS satellite) starte...
In this study, we consider the problem of predicting the orbit of a GNSS satellite with a force mode...
In this study, we consider the problem of predicting the orbit of a GNSS satellite with a force mode...
We present a method for improving autonomous GNSS satellite orbit prediction accuracy by including l...
Orbit prediction algorithms can be used in a portable positioning device to reduce the Time to First...
GNSS satellite orbits can be predicted by integrating the satellites’ equation of motion. If the pre...
In this thesis the orbit of a GPS satellite is predicted by formulating its equation of motion and s...
In self-assisted GNSS the orbit of a satellite is predicted by solving the differential equation tha...
In an operational sense, orbit prediction is a fundamental requirement in generating the broadcast e...
A method to predict satellite orbits in a GPS device without a network connection is presented. The ...
Precise orbit determination is vital for the increasingly vast number of space objects around the Ea...
In recent years, with the increasing number of man made objects in space the need for accurate satel...
In this study, we consider methods of spectral analysis and deep learning to improve accuracy and qu...
This study aims to investigate different orbit determination algorithms for the first Turkish remote...
In this study, we consider methods of spectral analysis and deep learning to improve accuracy and qu...
The modelling of non-gravitational forces acting on a satellite (especially a GNSS satellite) starte...
In this study, we consider the problem of predicting the orbit of a GNSS satellite with a force mode...
In this study, we consider the problem of predicting the orbit of a GNSS satellite with a force mode...
We present a method for improving autonomous GNSS satellite orbit prediction accuracy by including l...
Orbit prediction algorithms can be used in a portable positioning device to reduce the Time to First...
GNSS satellite orbits can be predicted by integrating the satellites’ equation of motion. If the pre...
In this thesis the orbit of a GPS satellite is predicted by formulating its equation of motion and s...
In self-assisted GNSS the orbit of a satellite is predicted by solving the differential equation tha...
In an operational sense, orbit prediction is a fundamental requirement in generating the broadcast e...
A method to predict satellite orbits in a GPS device without a network connection is presented. The ...
Precise orbit determination is vital for the increasingly vast number of space objects around the Ea...
In recent years, with the increasing number of man made objects in space the need for accurate satel...
In this study, we consider methods of spectral analysis and deep learning to improve accuracy and qu...
This study aims to investigate different orbit determination algorithms for the first Turkish remote...
In this study, we consider methods of spectral analysis and deep learning to improve accuracy and qu...
The modelling of non-gravitational forces acting on a satellite (especially a GNSS satellite) starte...