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Adaptive optics tracking and pushing system for space debris manoeuvre

Authors :
Laird Close
Laura Schreiber
Dirk Schmidt
Lingham, Marcus
Grosse, Doris
Bennet, Francis
Blundell, Mark
Chan, Amy
Copeland, Michael
d'Orgeville, Celine
Ellis, Michael
Galla, Tony
Gao, Yue
Gers, Luke
Hart, John
Houston, Ellen
Korkiakoski, Visa
Price, Ian
Rees, Emily
Rigaut, Francois
Ritchie, Ian
Smith, Craig
Travouillon, Tony
Vaccarella, Annino
Wang, Yanjie
Webb, James
Laird Close
Laura Schreiber
Dirk Schmidt
Lingham, Marcus
Grosse, Doris
Bennet, Francis
Blundell, Mark
Chan, Amy
Copeland, Michael
d'Orgeville, Celine
Ellis, Michael
Galla, Tony
Gao, Yue
Gers, Luke
Hart, John
Houston, Ellen
Korkiakoski, Visa
Price, Ian
Rees, Emily
Rigaut, Francois
Ritchie, Ian
Smith, Craig
Travouillon, Tony
Vaccarella, Annino
Wang, Yanjie
Webb, James
Source :
Proceedings of SPIE
Publication Year :
2018

Abstract

As space debris in lower Earth orbits are accumulating, techniques to lower the risk of space debris collisions must be developed. Within the context of the Space Environment Research Centre (SERC), the Australian National University (ANU) is developing an adaptive optics system for tracking and pushing space debris. The strategy is to pre-condition a laser launched from a 1.8 m telescope operated by Electro Optics Systems (EOS) on Mount Stromlo, Canberra and direct it at an object to perturb its orbit. Current progress towards implementing this experiment, which will ensure automated operation between the telescope and the adaptive optics system, will be presented.

Details

Database :
OAIster
Journal :
Proceedings of SPIE
Notes :
Austin, United States, en_AU
Publication Type :
Electronic Resource
Accession number :
edsoai.on1291843292
Document Type :
Electronic Resource

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