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- [1] The small orbital debris population and its impact on space activities and ecological safetyACTA ASTRONAUTICA, 2020, 176 : 591 - 597Adushkin, V. V.Aksenov, O. YuVeniaminov, S. S.Kozlov, S., ITyurenkova, V. V.
Improving the knowledge of the orbital population New technical means of space debris monitoring
被引:0
|作者:
Letizia, Francesca
[1
]
Metz, Manuel
[2
]
Faucher, Pascal
[3
]
Krag, Holger
[4
]
Jing, Liu
[5
]
Ramos, Maria Antonia
[6
]
Ortiz, Noelia Sanchez
[7
]
Schildknecht, Thomas
[8
]
Srivastava, Smiriti
[9
]
机构:
[1] European Space Agcy ESA, Noordwijk, Netherlands
[2] German Space Agcy DLR, D-53227 Bonn, Germany
[3] French Space Agcy CNES, Paris, France
[4] European Space Agcy ESA, Darmstadt, Germany
[5] Natl Astron Observ BAO, Chaoyang, Peoples R China
[6] CDTI, Madrid, Spain
[7] Arribes Enlightenment, Madrid, Spain
[8] Univ Bern, Astron Inst, Bern, Switzerland
[9] Italian Natl Inst Astrophys INAF OAS, Bologna, Italy
关键词:
Space traffic management;
STM;
Orbital debris;
Monitoring;
Trackability;
SOLAR-RADIATION PRESSURE;
ASTEROID LIGHTCURVE INVERSION;
OPTIMIZATION METHODS;
OBJECTS;
D O I:
10.1016/j.actaastro.2024.06.028
中图分类号:
V [航空、航天];
学科分类号:
08 ;
0825 ;
摘要:
Space objects monitoring data represents the foundation of any Space Traffic Management system, as it provides inputs both for operational needs (e.g. collision avoidance), but also to space debris models to assess the status and evolution of the debris environment. The current paper provides an overview of current techniques used for space object observation, ranging from radar to in-situ system, together with a survey of emerging technologies and recommendations for evolution in view of observed trends in space operations (e.g. need for improved collision avoidance data, increase in rideshare missions, development of active debris removal and servicing missions).
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页码:734 / 740
页数:7
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