CubeSats are faced with some limitations, mainly due to the limited onboard power and the quality of the onboard sensors. These limitations significantly reduce CubeSats' applicability in space missions requiring high orbital accuracy. This thesis first investigates the limitations in the precise orbit determination of CubeSats and next develops algorithms and remedies to reach high orbital and clock accuracies. The outputs would help in increasing CubeSats' applicability in future space missions
In recent years, Earth Observation (EO) technologies have surged in an attempt to better understand ...
CubETH is a project to evaluate and demonstrate possibilities of low-cost GNSS receivers on a nano-s...
The need for precise orbit determination (POD) has grown significantly due to the increased amount o...
CubeSats are small low-cost and low-power satellites that can be used for many space missions. Some ...
The use of CubeSats is expanding in space and earth science applications due to the low costs of bui...
Making use of dual-frequency (DF) global navigation satellite system (GNSS) observations and good dy...
CubeSats can be used for many space missions and Earth science applications if their orbits can be d...
The need for precise orbit determination (POD) has grown significantly due to the increased amount o...
GPS can provide and has provided down to sub-centimeter accurate precise orbit determination (POD) f...
Global Navigation Satellite Systems (GNSS) have been used as a key technology for satellite orbit de...
CubeSats constellations using commercial off-the-shelf components have been studied for different ap...
The importance of small satellites, and in particular of nano-satellites (e.g. CubeSats) has increas...
This thesis will focus on the performance of angles only initial orbit determi- nation (IOD) methods...
The attitude information of a CubeSat is essential to keeping the satellite in its favourable orient...
The need for precise orbit determination (POD) has grown significantly due to the increased amount o...
In recent years, Earth Observation (EO) technologies have surged in an attempt to better understand ...
CubETH is a project to evaluate and demonstrate possibilities of low-cost GNSS receivers on a nano-s...
The need for precise orbit determination (POD) has grown significantly due to the increased amount o...
CubeSats are small low-cost and low-power satellites that can be used for many space missions. Some ...
The use of CubeSats is expanding in space and earth science applications due to the low costs of bui...
Making use of dual-frequency (DF) global navigation satellite system (GNSS) observations and good dy...
CubeSats can be used for many space missions and Earth science applications if their orbits can be d...
The need for precise orbit determination (POD) has grown significantly due to the increased amount o...
GPS can provide and has provided down to sub-centimeter accurate precise orbit determination (POD) f...
Global Navigation Satellite Systems (GNSS) have been used as a key technology for satellite orbit de...
CubeSats constellations using commercial off-the-shelf components have been studied for different ap...
The importance of small satellites, and in particular of nano-satellites (e.g. CubeSats) has increas...
This thesis will focus on the performance of angles only initial orbit determi- nation (IOD) methods...
The attitude information of a CubeSat is essential to keeping the satellite in its favourable orient...
The need for precise orbit determination (POD) has grown significantly due to the increased amount o...
In recent years, Earth Observation (EO) technologies have surged in an attempt to better understand ...
CubETH is a project to evaluate and demonstrate possibilities of low-cost GNSS receivers on a nano-s...
The need for precise orbit determination (POD) has grown significantly due to the increased amount o...