Spacecraft constrained maneuver planning for moving debris avoidance using positively invariant constraint admissible sets

Author

Weiss, Adam ; Baldwin, Morgan ; Petersen, Christopher ; Erwin, R. Scott ; Kolmanovsky, Ilya

Author_Institution

Dept. of Aerosp. Eng., Univ. of Michigan, Ann Arbor, MI, USA

fYear

2013

fDate

17-19 June 2013

Firstpage

4802

Lastpage

4807

Abstract

This paper extends our prior work on spacecraft debris avoidance based on positively invariant sets to the case of moving debris. In this approach, a time-varying connectivity graph is constructed between a set of forced equilibria, forming a virtual net that is centered around a nominal orbital position of the spacecraft. The connectivity between two equilibria is determined based on contractive sets in order to guarantee that collision-free transitions between equilibria can be effected within a giving time period. A graph search algorithm is implemented to find the shortest path around the debris, or through the debris´ path once it has moved on. Simulation results are presented that illustrate this approach.

Keywords

aerospace control; graph theory; motion control; position control; search problems; space vehicles; time-varying systems; collision-free transition; contractive sets; forced equilibria; graph search algorithm; moving debris avoidance; nominal orbital position; positively invariant constraint admissible sets; spacecraft constrained maneuver planning; spacecraft debris avoidance; time-varying connectivity graph; virtual net; Computational modeling; Dynamics; Mathematical model; Orbits; Planning; Space vehicles; Trajectory;

fLanguage

English

Publisher

ieee

Conference_Titel

American Control Conference (ACC), 2013

Conference_Location

Washington, DC

ISSN

0743-1619

Print_ISBN

978-1-4799-0177-7

Type

conf

DOI

10.1109/ACC.2013.6580581

Filename

6580581