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Authors:
Thepdawala, Salman Ali; Thepdawala, Sibtain Ali; Hülsmann, Maren; Förstner, Roger 
Document type:
Konferenzbeitrag / Conference Paper 
Title:
Collision Risk Assessment: Autonomy Levels for AI-based Autonomous Collision Avoidance 
Title of conference publication:
IAC 2023 congress proceedings 
Subtitle of conference publication:
74th International Astronautical Congress (IAC), Baku, Azerbaijan 
Organizer (entity):
International Astronautical Federation 
Conference title:
International Astronautical Congress (74., 2023, Baku) 
Venue:
Baku, Azerbaijan 
Year of conference:
2023 
Date of conference beginning:
02.10.2023 
Date of conference ending:
06.10.2023 
Place of publication:
Paris 
Publishing institution:
International Astronautical Federation (IAF) 
Year:
2023 
Pages from - to:
75666 
Language:
Englisch 
Keywords:
Collision Avoidance ; Risk Assessment ; Mega-Constellations ; Autonomy Levels ; Artificial Intelligence ; Phasing Parameter 
Abstract:
The collision risk assessment of space objects plays an important role in space situational awareness, particularly for conjunction assessment and collision avoidance. The rapid increase in the satellite population in the Low Earth Orbit (LEO) is causing the number of close approaches between operational spacecraft to increase sharply. The largest contribution to this substantial increase in space objects is made by mega-constellations such as OneWeb, Kuiper, and Starlink.\\ As part of the Artif...    »
 
Article ID:
75666 
Department:
Fakultät für Luft- und Raumfahrttechnik 
Institute:
LRT 9 - Institut für Raumfahrttechnik und Weltraumnutzung 
Chair:
Förstner, Roger 
Research Hub UniBw M:
SPACE 
Project:
AI4COLA 
Open Access yes or no?:
Nein / No