Chinese Space Science and Technology ›› 2013, Vol. 33 ›› Issue (6): 1-8.doi: 10.3780/j.issn.1000-758X.2013.06.001

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ResearchonCompoundControlforSolarSailSpacecraftAttitudeManeuvering

 ZHAI  Kun, ZHANG  Jin, WANG  Tian-Shu   

  1. (SchoolofAstronauticsandAerospace,TsinghuaUniversity,Beijing100084)
  • Received:2013-04-15 Revised:2013-06-21 Published:2013-12-25 Online:2013-12-25

Abstract: Theinputshapingmethodscan′teliminateflexiblevibrationsduringtheattitudemaneuvering.Theresidualflexiblevibrationwillchangethestructureparametersofthelargeflexiblesolarsailspacecraftandinfluencethecontrolprecisionofattitudemaneuvering.Therefore,thecompoundcontrolmethodwasproposedtoeliminatetheflexiblevibrationduringtheattitudemaneuvering,basedonthecombinationoftwokindsofcontrolways.Thecouplingdynamicmodelsofsolarsailattitudemotionsandflexiblevibrationswereestablishedbythemethodoftakingthesailmembranesqualityequivalenttobooms.Consideringofreducingtheexternalforcesofvibrationmodes,twokindsofcompoundcontrolstrategieswereobtainedbythesimplifieddynamicmodels.Accordingtothesimulationresults,themaneuveringtimeofthesecondcompoundcontrolmethodisfewerthanthatoftheinputshapingmethod.Thesecondcompoundcontrolmethodcanreduceflexiblevibrationsto5%duringtheattitudemaneuveringprocessandmaketheprecisionofthemaneuveringanglebetterthan0.003°.Becauseofjustusingthoseexistedcontrolways,thealgorithmsofthecompoundcontrolmethodaresimpleandsuitabletothepracticalapplications.

Key words: Attitudemaneuver, Inputshaping, Vibrationsuppressing〓, Compoundcontrol, Solarsailspacecraft