Ground tests for vision based determination and control of formation flying spacecraft trajectories

The advances in the computational capabilities and in the robustness of the dedicated algorithms are suggesting vision based techniques as a fundamental asset in performing space operations such as rendezvous, docking and on-orbit servicing. This paper discusses a vision based technique in a scenari...

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Bibliographic Details
Published in:Acta astronautica 2014-09, Vol.102, p.378-391
Main Authors: Gasbarri, P., Sabatini, M., Palmerini, G.B.
Format: Article
Language:English
Subjects:
Algorithms
Cameras
Formation flying
Ground tests
Kalman filter
Orbital maneuvering
Rendezvous
Satellites
Target recognition
Vision
Vision based navigation
Visual
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Summary:The advances in the computational capabilities and in the robustness of the dedicated algorithms are suggesting vision based techniques as a fundamental asset in performing space operations such as rendezvous, docking and on-orbit servicing. This paper discusses a vision based technique in a scenario where the chaser satellite must identify a non-cooperative target, and use visual information to estimate the relative kinematic state. A hardware-in-the-loop experiment is performed to test the possibility to perform a space rendezvous using the camera as a standalone sensor. This is accomplished using a dedicated test bed constituted by a dark room hosting a robotic manipulator. The camera is mounted on the end effector that moves replicating the satellite formation dynamics, including the control actions, which depend at each time step by the state estimation based on the visual algorithm, thus realizing a closed GNC loop. •A hardware-in-the-loop experiment is performed to test vision based space navigation.•A dark room hosting a robotic manipulator is described.•A camera is mounted on the end effector, that replicates the satellite relative dynamics.•The control depends at each time on the state estimation based on the visual.
ISSN:0094-5765
1879-2030
DOI:10.1016/j.actaastro.2013.11.035