We present a method for improving autonomous GNSS satellite orbit prediction accuracy by including latent forces, i.e. forces that are estimated with broadcast ephemeris data. The purpose of autonomous prediction is to reduce the Time to First Fix of a stand-alone positioning device. Our orbit model includes gravity and solar radiation forces and initial state estimation algorithm. We present a state-space model for the latent forces, which are meant to correct the deficiencies of our force model, and we describe how latent forces are incorporated as a part of our prediction algorithm. Using a novel algorithm, where multiple ephemerides are used to estimate the latent forces, the orbit prediction accuracy for GPS, GLONASS and Beidou is sign...
In GNSS-based navigation onboard Low Earth Orbit (LEO) satellites, typical accuracy requirements are...
The modelling of non-gravitational forces acting on a satellite (especially a GNSS satellite) starte...
Since the beginning of satellite altimetry missions, the ocean surface topography community requires...
In this study, we consider the problem of predicting the orbit of a GNSS satellite with a force mode...
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 self-assisted GNSS the orbit of a satellite is predicted by solving the differential equation tha...
Precise orbit determination is vital for the increasingly vast number of space objects around the Ea...
In an operational sense, orbit prediction is a fundamental requirement in generating the broadcast e...
In recent years, with the increasing number of man made objects in space the need for accurate satel...
A method to predict satellite orbits in a GPS device without a network connection is presented. The ...
We present a two-parameter Solar Radiation Pressure model for GNSS autonomous orbit prediction, in w...
This paper addresses the problem of orbit prediction and its impact on flight dynamics operations. I...
This paper presents a method for improving the accuracy of extended GNSS satellite orbit predictions...
Time to first fix (TTFF) is one of the crucial indicators to evaluate the performance of a GPS recei...
In GNSS-based navigation onboard Low Earth Orbit (LEO) satellites, typical accuracy requirements are...
The modelling of non-gravitational forces acting on a satellite (especially a GNSS satellite) starte...
Since the beginning of satellite altimetry missions, the ocean surface topography community requires...
In this study, we consider the problem of predicting the orbit of a GNSS satellite with a force mode...
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 self-assisted GNSS the orbit of a satellite is predicted by solving the differential equation tha...
Precise orbit determination is vital for the increasingly vast number of space objects around the Ea...
In an operational sense, orbit prediction is a fundamental requirement in generating the broadcast e...
In recent years, with the increasing number of man made objects in space the need for accurate satel...
A method to predict satellite orbits in a GPS device without a network connection is presented. The ...
We present a two-parameter Solar Radiation Pressure model for GNSS autonomous orbit prediction, in w...
This paper addresses the problem of orbit prediction and its impact on flight dynamics operations. I...
This paper presents a method for improving the accuracy of extended GNSS satellite orbit predictions...
Time to first fix (TTFF) is one of the crucial indicators to evaluate the performance of a GPS recei...
In GNSS-based navigation onboard Low Earth Orbit (LEO) satellites, typical accuracy requirements are...
The modelling of non-gravitational forces acting on a satellite (especially a GNSS satellite) starte...
Since the beginning of satellite altimetry missions, the ocean surface topography community requires...