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Multi-rendezvous Spacecraft Trajectory Optimization with Beam P-ACO

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arxiv 1704.00702 v1 pith:AYB2IOFE submitted 2017-04-03 cs.NE physics.space-ph

Multi-rendezvous Spacecraft Trajectory Optimization with Beam P-ACO

classification cs.NE physics.space-ph
keywords beamoptimizationperformanceproblemsearchalgorithmalgorithmsbodies
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The design of spacecraft trajectories for missions visiting multiple celestial bodies is here framed as a multi-objective bilevel optimization problem. A comparative study is performed to assess the performance of different Beam Search algorithms at tackling the combinatorial problem of finding the ideal sequence of bodies. Special focus is placed on the development of a new hybridization between Beam Search and the Population-based Ant Colony Optimization algorithm. An experimental evaluation shows all algorithms achieving exceptional performance on a hard benchmark problem. It is found that a properly tuned deterministic Beam Search always outperforms the remaining variants. Beam P-ACO, however, demonstrates lower parameter sensitivity, while offering superior worst-case performance. Being an anytime algorithm, it is then found to be the preferable choice for certain practical applications.

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