none4noThe DustCube mission concept, which was the subject of previous studies done by the authors under ESA contract, is used here as a test case for demonstrating the autonomous navigation capabilities of a CubeSat platform within the binary asteroid system Didymos. In this work, a navigation filter is developed, which computes the s/c position starting from images of the two primaries, using both information on the line-of-sight to the target centroids and on the targets' range. The likelihood of the observations is then fused to the a-priori information coming from a reduced dynamic model, in a Kalman-like recursive filter. Expected performances of this filter, at the proposed parking orbit at 4 , are assessed through numerical simulati...
Asteroid exploration is a new booming field for planetary sciences and space engineering. This navig...
A successful space mission depends on crucial systems and teams working together. Designing a feasib...
This paper presents a multi-sensor navigation approach to allow a formation of spacecraft to autonom...
The DustCube mission concept, which was the subject of previous studies done by the authors under ES...
none4noWe consider the autonomous optical navigation problem for a CubeSat mission to a binary aster...
AIDA (Asteroid Impact and Deflection Assessment), is a joint NASA-ESA mission that will operate with...
This paper presents an on-board, centralized autonomous navigation algorithm able to reconstruct the...
Nanosatellite missions represent a promising option for the exploration of the near-Earth asteroid p...
The paper presents an autonomous navigation method for a spacecraft formation flying in the proximit...
Spacecraft navigation and control is difficult in deep space operations. Especially around asteroids...
In this work, an orbit determination algorithm suitable for CubeSats onboard implementation is devel...
none4noNanosatellite missions represent a promising option for the exploration of the near-Earth ast...
This paper presents an autonomous multi-sensor navigation approach for a formation of spacecraft fly...
Asteroid exploration is a new booming field for planetary sciences and space engineering. This navig...
A successful space mission depends on crucial systems and teams working together. Designing a feasib...
This paper presents a multi-sensor navigation approach to allow a formation of spacecraft to autonom...
The DustCube mission concept, which was the subject of previous studies done by the authors under ES...
none4noWe consider the autonomous optical navigation problem for a CubeSat mission to a binary aster...
AIDA (Asteroid Impact and Deflection Assessment), is a joint NASA-ESA mission that will operate with...
This paper presents an on-board, centralized autonomous navigation algorithm able to reconstruct the...
Nanosatellite missions represent a promising option for the exploration of the near-Earth asteroid p...
The paper presents an autonomous navigation method for a spacecraft formation flying in the proximit...
Spacecraft navigation and control is difficult in deep space operations. Especially around asteroids...
In this work, an orbit determination algorithm suitable for CubeSats onboard implementation is devel...
none4noNanosatellite missions represent a promising option for the exploration of the near-Earth ast...
This paper presents an autonomous multi-sensor navigation approach for a formation of spacecraft fly...
Asteroid exploration is a new booming field for planetary sciences and space engineering. This navig...
A successful space mission depends on crucial systems and teams working together. Designing a feasib...
This paper presents a multi-sensor navigation approach to allow a formation of spacecraft to autonom...