Abstract The mission planning of GEO debris removal with multiple servicing spacecrafts (SScs) is studied in this paper. Specifically, the SScs are considered to be initially on the GEO belt, and they should rendezvous with debris of different orbital slots and different inclinations, remove them to the graveyard orbit and finally return to their initial locations. Three key problems should be resolved here: task assignment, mission sequence planning and transfer trajectory optimization for each SSc. The minimum-cost, two-impulse phasing maneuver is used for each rendezvous. The objective is to find a set of optimal planning schemes with minimum fuel cost and travel duration. Considering this mission as a hybrid optimal control problem, a mathematical model is proposed. A modified multi-objective particle swarm optimization is employed to address the model. Numerous examples are carried out to demonstrate the effectiveness of the model and solution method. In this paper, single-SSc and multiple-SSc scenarios with the same amount of fuel are compared. Numerous experiments indicate that for a definite GEO debris removal mission, that which alternative (single-SSc or multiple-SSc) is better (cost less fuel and consume less travel time) is determined by many factors. Although in some cases, multiple-SSc scenarios may perform worse than single-SSc scenarios, the extra costs are considered worth the gain in mission safety and robustness.
Highlights Biobjective planning of GEO debris removal with multiple spacecrafts is studied. A hybrid optimal control model is proposed for this problem. A modified multi-objective PSO method is employed to address the model. The efficiency of the method is demonstrated in experiments. Five different debris removal scenarios are compared and discussed.
Biobjective planning of GEO debris removal mission with multiple servicing spacecrafts
Acta Astronautica ; 105 , 1 ; 311-320
2014-10-02
10 pages
Article (Journal)
Electronic Resource
English
Biobjective planning of GEO debris removal mission with multiple servicing spacecrafts
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