Review of path planning in prospective multi-target active debris removal missions in low earth orbits
Author:
Funder
Russian Science Foundation
Publisher
Elsevier BV
Reference204 articles.
1. Satellite catalogue, http://www.celestrak.com/satcat/search.asp accessed 05, 2023.
2. The characteristics and consequences of the break-up of the Fengyun-1C spacecraft;Johnson;Acta Astronaut.,2008
3. Assessment of the consequences of the Fengyun-1C breakup in low Earth orbit;Pardini;Adv. Space Res.,2009
4. Physical properties and long-term evolution of the debris clouds produced by two catastrophic collisions in Earth orbit;Pardini;Adv. Space Res.,2011
5. Analysis of the Iridium 33 – Cosmos 2251 collision;Kelso;Adv. Astronaut. Sci.,2009
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