This paper presents an on-board, centralized autonomous navigation algorithm able to reconstruct the trajectories of a fleet of CubeSats relative to an asteroid binary system. The algorithm is executed on-board the main spacecraft, which takes relative measurements using a narrow optical camera and an additional relative measurement, being inter satellite ranging in this paper. The image processing algorithm detects and tracks the CubeSats, deriving line-of-sight measurements. A non-linear estimation filter is employed to reconstruct the trajectory. The algorithm is tested using high-fidelity trajectory simulator and synthetic images generation routines
This paper deals with the autonomous relative navigation of two satellites flying in close proximity...
CubeSats are being deployed for a number of activities including Earth observation, telecommunicatio...
The objective of this paper is to develop a robust and efficient approach for relative navigation an...
This paper presents an on-board, centralized autonomous navigation algorithm able to reconstruct the...
The DustCube mission concept, which was the subject of previous studies done by the authors under ES...
Spreading of spacecraft formations and constellations made up by affordable platforms as cubesats po...
We consider the autonomous optical navigation problem for a CubeSat mission to a binary asteroid sys...
This paper presents an autonomous multi-sensor navigation approach for a formation of spacecraft fly...
The paper presents an autonomous navigation method for a spacecraft formation flying in the proximit...
In the framework of on-orbit proximity operations, small satellites represent an appealing solution ...
The interest of the space community toward missions like On-Orbit Servicing of functional satellite ...
This paper deals with the autonomous relative navigation of two satellites flying in close proximity...
CubeSats are being deployed for a number of activities including Earth observation, telecommunicatio...
The objective of this paper is to develop a robust and efficient approach for relative navigation an...
This paper presents an on-board, centralized autonomous navigation algorithm able to reconstruct the...
The DustCube mission concept, which was the subject of previous studies done by the authors under ES...
Spreading of spacecraft formations and constellations made up by affordable platforms as cubesats po...
We consider the autonomous optical navigation problem for a CubeSat mission to a binary asteroid sys...
This paper presents an autonomous multi-sensor navigation approach for a formation of spacecraft fly...
The paper presents an autonomous navigation method for a spacecraft formation flying in the proximit...
In the framework of on-orbit proximity operations, small satellites represent an appealing solution ...
The interest of the space community toward missions like On-Orbit Servicing of functional satellite ...
This paper deals with the autonomous relative navigation of two satellites flying in close proximity...
CubeSats are being deployed for a number of activities including Earth observation, telecommunicatio...
The objective of this paper is to develop a robust and efficient approach for relative navigation an...