Modeling and control of a space robot for active debris removal

Modeling and control of a space robot for active debris removal

Space access and satellites lifespan are increasingly threatened by the great amount of debris in Low Earth Orbits. Among the many solutions proposed in the literature so far, the emphasis is put here on a robotic arm mounted on a “chaser” satellite to capture massive debris, such as dead satellites...

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Bibliographic Details
Published in:CEAS space journal Vol. 7; no. 2; pp. 203 - 218
Main Authors: Dubanchet, Vincent, Saussié, David, Alazard, Daniel, Bérard, Caroline, Peuvédic, Catherine Le
Format: Journal Article
Language:English
Published: Vienna Springer Vienna 01-06-2015
Subjects:
Aerospace Technology and Astronautics
Engineering
Original Paper
Trajectory tracking
Space debris
Modeling
Robotics
PD controller
Online Access:Get full text
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Description
Summary:Space access and satellites lifespan are increasingly threatened by the great amount of debris in Low Earth Orbits. Among the many solutions proposed in the literature so far, the emphasis is put here on a robotic arm mounted on a “chaser” satellite to capture massive debris, such as dead satellites or launch vehicle upper stages. The modeling and control of such systems are investigated throughout the paper. Dynamic models rely on an adapted Newton–Euler algorithm, and control algorithms are based on the fixed-structure H ∞ synthesis, recently implemented in an efficient Matlab toolbox. The main goal is to efficiently track a target point on the debris while using PD-like controllers to reduce computational burden. The fixed-structure H ∞ framework proves to be a suitable tool to design a reduced-order robust controller that catches up with external disturbances and is simultaneously compatible with current space processors capabilities.
ISSN:1868-2502
1868-2510
DOI:10.1007/s12567-015-0082-4