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Survey on Models, Algorithms and General Techniques for Spacecraft Mission SchedulingChinese Full TextEnglish Full Text (MT)

DU Yong-Hao;XING Li-Ning;YAO Feng;CHEN Ying-Guo;College of Systems Engineering, National University of Defense Technology;Leiden Institute of Advanced Computer Science, Leiden University;

Abstract: To address the large-scale and complicated situations and the flexible networking and fast-response requirements in spacecraft mission scheduling, this paper reviews its developments in models, algorithms and general techniques. Firstly, based on the remote sensing satellite, relay satellite, navigation satellite, and spacecraft tracking missions, the descriptions and commonalities of previous spacecraft scheduling models, including mission-sequencing models and visible time window-allocation models, are analyzed. Also, the necessity of improving model compatibility and applicability is clarified. Secondly, based on heuristic, exact, and metaheuristic algorithms, the applicable models and coding characteristics of those algorithms are discussed, and the importance of algorithm-model decoupling and algorithm hybridization is pointed out. In this regard, the models, algorithms, and main functions of four general techniques for spacecraft mission scheduling, including CPLEX, STK/Scheduler, Europa2, and Super-View-1 scheduling subsystem, are introduced, and the necessity of self-developed general techniques and some new application ideas are explained. Finally, future studies such as developing a unified modeling language and building algorithm libraries and Benchmarks for spacecraft mission scheduling are highlighted.
  • DOI:

    10.16383/j.aas.c190656

  • Series:

    (I) Electronic Technology & Information Science; (C) Architecture/ Energy/ Traffic/ Electromechanics, etc

  • Subject:

    Aeronautics and Astronautics Science and Engineering; Computer Software and Application of Computer

  • Classification Code:

    V556;TP301.6

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