Robust optimisation of coordinated collision avoidance manoeuvres in large constellations

Massimiliano Vasile; Luis Sanchez

Robust optimisation of coordinated collision avoidance manoeuvres in large constellations

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Abstract

This paper presents some preliminary results on the coordinated planning of collision avoidance manoeuvres in two different cases: two or more satellites belonging to the same constellation manoeuvering to avoid the collision with an inert object and two or more satellites belonging to different constellations manoeuvering to avoid a collision. In both cases we consider an uncertainty in the correct calculation of the probability of collision and we plan robust manoeuvres that account for both aleatory and epistemic uncertainty. A Multi-Criteria Decision Making process is then used to select the optimal strategy in both cases.

Original language	English
Number of pages	16
Publication status	Published - 10 Jun 2022
Event	11th International Workshop on Satellite Constellations & Formation Flying - Milan, Italy Duration: 7 Jun 2022 → 10 Jun 2022

Conference

Conference	11th International Workshop on Satellite Constellations & Formation Flying
Abbreviated title	IWSCFF 2022
Country/Territory	Italy
City	Milan
Period	7/06/22 → 10/06/22

Funding

This work was funded by the European Space Agency, through the ”Idea I-2019-01650: Artificial Intelligence for Space Traffic Management”.

Keywords

Mega-constellations
AI
collision avoidance manoeuvre
robust optimisation
uncertainty quantification

Access to Document

Vasile-Sanchez-IWSCFF-2022-Robust-optimisation-of-coordinated-collision-avoidance-manoeuvresAccepted author manuscript, 2.44 MBLicence: Strath_1

Cite this

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title = "Robust optimisation of coordinated collision avoidance manoeuvres in large constellations",

abstract = "This paper presents some preliminary results on the coordinated planning of collision avoidance manoeuvres in two different cases: two or more satellites belonging to the same constellation manoeuvering to avoid the collision with an inert object and two or more satellites belonging to different constellations manoeuvering to avoid a collision. In both cases we consider an uncertainty in the correct calculation of the probability of collision and we plan robust manoeuvres that account for both aleatory and epistemic uncertainty. A Multi-Criteria Decision Making process is then used to select the optimal strategy in both cases.",

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T1 - Robust optimisation of coordinated collision avoidance manoeuvres in large constellations

AU - Vasile, Massimiliano

AU - Sanchez, Luis

PY - 2022/6/10

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N2 - This paper presents some preliminary results on the coordinated planning of collision avoidance manoeuvres in two different cases: two or more satellites belonging to the same constellation manoeuvering to avoid the collision with an inert object and two or more satellites belonging to different constellations manoeuvering to avoid a collision. In both cases we consider an uncertainty in the correct calculation of the probability of collision and we plan robust manoeuvres that account for both aleatory and epistemic uncertainty. A Multi-Criteria Decision Making process is then used to select the optimal strategy in both cases.

AB - This paper presents some preliminary results on the coordinated planning of collision avoidance manoeuvres in two different cases: two or more satellites belonging to the same constellation manoeuvering to avoid the collision with an inert object and two or more satellites belonging to different constellations manoeuvering to avoid a collision. In both cases we consider an uncertainty in the correct calculation of the probability of collision and we plan robust manoeuvres that account for both aleatory and epistemic uncertainty. A Multi-Criteria Decision Making process is then used to select the optimal strategy in both cases.

KW - Mega-constellations

KW - AI

KW - collision avoidance manoeuvre

KW - robust optimisation

KW - uncertainty quantification

M3 - Paper

T2 - 11th International Workshop on Satellite Constellations & Formation Flying

Y2 - 7 June 2022 through 10 June 2022

ER -

Robust optimisation of coordinated collision avoidance manoeuvres in large constellations

Abstract

Conference

Funding

Keywords

Access to Document

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Cite this