TY - GEN
T1 - Towards a taxonomy for automatic and autonomous cooperative spacecraft maneuvering in a space traffic management framework∗
AU - Hobbs, Kerianne L.
AU - Collins, Alexander R.
AU - Feron, Eric M.
N1 - Publisher Copyright:
© 2020 The MITRE Corporation. All Rights Reserved.
PY - 2020
Y1 - 2020
N2 - As the number of objects in Earth orbit continues to grow, automatic maneuvering of spacecraft may play an important role in a comprehensive space traffic management framework. Automatic collision avoidance, rendezvous and proximity operations, and station keeping are all possible spacecraft missions where two or more spacecraft may interact in an automatic maneuver scenario. Interaction may be limited to awareness of state information such as the other object’s position and velocity relative to an ownship position and velocity, or it may be as extensive as two spacecraft that communicate and coordinate maneuvers to optimize resource use while still meeting mission objectives. Before standards and policies can be determined, a common vocabulary describing spacecraft interactions is needed. This paper proposes a spacecraft maneuver taxonomy that provides a common set of definitions for categories of spacecraft interactions, maneuver coordination, intent, and maneuver efficiency, as well as related concepts such as centralized, distributed, and hierarchical control. It is envisioned that this taxonomy will provide a basis for specifications, planning, coordination, and on-orbit synchronization of spacecraft automatic maneuvering.
AB - As the number of objects in Earth orbit continues to grow, automatic maneuvering of spacecraft may play an important role in a comprehensive space traffic management framework. Automatic collision avoidance, rendezvous and proximity operations, and station keeping are all possible spacecraft missions where two or more spacecraft may interact in an automatic maneuver scenario. Interaction may be limited to awareness of state information such as the other object’s position and velocity relative to an ownship position and velocity, or it may be as extensive as two spacecraft that communicate and coordinate maneuvers to optimize resource use while still meeting mission objectives. Before standards and policies can be determined, a common vocabulary describing spacecraft interactions is needed. This paper proposes a spacecraft maneuver taxonomy that provides a common set of definitions for categories of spacecraft interactions, maneuver coordination, intent, and maneuver efficiency, as well as related concepts such as centralized, distributed, and hierarchical control. It is envisioned that this taxonomy will provide a basis for specifications, planning, coordination, and on-orbit synchronization of spacecraft automatic maneuvering.
UR - http://www.scopus.com/inward/record.url?scp=85097679645&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:85097679645
SN - 9781624106088
T3 - Accelerating Space Commerce, Exploration, and New Discovery Conference, ASCEND 2020
BT - Accelerating Space Commerce, Exploration, and New Discovery Conference, ASCEND 2020
PB - American Institute of Aeronautics and Astronautics Inc, AIAA
T2 - Accelerating Space Commerce, Exploration, and New Discovery Conference, ASCEND 2020
Y2 - 16 November 2020 through 19 November 2020
ER -