The deep-space nanosatellite is a growing trend that will need solutions for autonomous navigation. The Paris Observatory is especially interested in the CubeSats as they offer a technological break in the observational concepts: they pave the way to novel measurements that were simply not accessible before. We focus here, for novel scientific cases, on a solution for autonomous orbit determination. It is often at stake for the feasibility of a project. Two science cases were the motivations for this research: space weather in interplanetary medium and space geodesy at an asteroid, both cases being addressed in the technological project called BIRDY-T. Further applications are also identified, as science case or business development. A stud...
This paper presents an on-board, centralized autonomous navigation algorithm able to reconstruct the...
Après le lancement du premier satellite artificiel en 1957, l'évolution de diverses technologies a f...
textAn autonomous mission manager is being developed for use on CubeSats to perform proximity operat...
The deep-space nanosatellite is a growing trend that will need solutions for autonomous navigation. ...
Le secteur des nanosatellites interplanétaires se développe et devra disposer de solutions de naviga...
With the increasing number of satellites operating in orbit and the development of nanosatellitecons...
Development of autonomous in-fight navigation capability for a CubeSat mission is a challenging task...
The domain of nano/microsatellites has been irreversibly modified by the apparition of the CubeSat s...
International audienceBringing a CubeSat that could autonomously navigate in the vicinity of small b...
AIDA (Asteroid Impact and Deflection Assessment), is a joint NASA-ESA mission that will operate with...
none4noThe DustCube mission concept, which was the subject of previous studies done by the authors u...
The study addresses the problem of space debris motion determination using a nanosatellite with vide...
Nano satellites are becoming more and more attractive even in planetary exploration. They have evide...
Le but de cette thèse est de présenter des algorithmes basés vision pour permettre la navigation aut...
This paper presents an on-board, centralized autonomous navigation algorithm able to reconstruct the...
Après le lancement du premier satellite artificiel en 1957, l'évolution de diverses technologies a f...
textAn autonomous mission manager is being developed for use on CubeSats to perform proximity operat...
The deep-space nanosatellite is a growing trend that will need solutions for autonomous navigation. ...
Le secteur des nanosatellites interplanétaires se développe et devra disposer de solutions de naviga...
With the increasing number of satellites operating in orbit and the development of nanosatellitecons...
Development of autonomous in-fight navigation capability for a CubeSat mission is a challenging task...
The domain of nano/microsatellites has been irreversibly modified by the apparition of the CubeSat s...
International audienceBringing a CubeSat that could autonomously navigate in the vicinity of small b...
AIDA (Asteroid Impact and Deflection Assessment), is a joint NASA-ESA mission that will operate with...
none4noThe DustCube mission concept, which was the subject of previous studies done by the authors u...
The study addresses the problem of space debris motion determination using a nanosatellite with vide...
Nano satellites are becoming more and more attractive even in planetary exploration. They have evide...
Le but de cette thèse est de présenter des algorithmes basés vision pour permettre la navigation aut...
This paper presents an on-board, centralized autonomous navigation algorithm able to reconstruct the...
Après le lancement du premier satellite artificiel en 1957, l'évolution de diverses technologies a f...
textAn autonomous mission manager is being developed for use on CubeSats to perform proximity operat...