In order to enable the non-cooperative rendez-vous, capture, and removal of large space debris, automatic recognition of the target is needed. Several technologies are currently available and stereo vision is one of the most suitable in the strict context of space missions, where low energy consumption is fundamental and sensors should be passive in order to avoid any possible damage to external objects as well as to the chaser satellite (e.g., scattered reflection of laser scanners may potentially be an issue). In this paper we are presenting a stereo vision system we set up in order to reconstruct the object model of space debris, making use of a programmable system-on-chip board equipped with a couple of cameras. We identified the parameters that such a system have to deal with, and implemented a prototype solution tested in lab with debris mock up and actual satellite models. Results are demonstrating that fast image pre-processing is needed for having an acceptable recognition of object depth and shape. The proposed system can be integrated with other vision techniques to improve the comprehension of debris model allowing a fast evaluation of associated kinematics to select the most appropriate approach for capture.
Stereo vision system for capture and removal of space debris / Rosso, Francesco; Gallo, F.; Allasia, W.; Licata, E.; Prinetto, Paolo Ernesto; Rolfo, Daniele; Trotta, Pascal; Favetto, Alain; Paleari, M.; Ariano, Paolo. - ELETTRONICO. - (2013). (Intervento presentato al convegno 5th European Conference for Aeronautics and Space Sciences EUCASS 2013 tenutosi a Munich, Germany nel 1-5 July 2013).
Stereo vision system for capture and removal of space debris
ROSSO, Francesco;PRINETTO, Paolo Ernesto;ROLFO, DANIELE;TROTTA, PASCAL;FAVETTO, ALAIN;ARIANO, PAOLO
2013
Abstract
In order to enable the non-cooperative rendez-vous, capture, and removal of large space debris, automatic recognition of the target is needed. Several technologies are currently available and stereo vision is one of the most suitable in the strict context of space missions, where low energy consumption is fundamental and sensors should be passive in order to avoid any possible damage to external objects as well as to the chaser satellite (e.g., scattered reflection of laser scanners may potentially be an issue). In this paper we are presenting a stereo vision system we set up in order to reconstruct the object model of space debris, making use of a programmable system-on-chip board equipped with a couple of cameras. We identified the parameters that such a system have to deal with, and implemented a prototype solution tested in lab with debris mock up and actual satellite models. Results are demonstrating that fast image pre-processing is needed for having an acceptable recognition of object depth and shape. The proposed system can be integrated with other vision techniques to improve the comprehension of debris model allowing a fast evaluation of associated kinematics to select the most appropriate approach for capture.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2519068
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