Optimizationdesignofinclinationorbitofhumanlunarlandingemergencyreturntrajectory

doi:10.16708/j.cnki.1000-758X.2017.0057

Chinese Space Science and Technology ›› 2017, Vol. 37 ›› Issue (4): 69-74.doi: 10.16708/j.cnki.1000-758X.2017.0057

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Optimizationdesignofinclinationorbitofhumanlunarlandingemergencyreturntrajectory

CHEN Hai-Peng, YU Xue-Hao^*, HUANG Fei

ShanghaiAerospaceControlTechnologyInstiture,Shanghai201109, China

Received:2016-10-11 Revised:2016-11-25 Published:2017-08-25 Online:2017-06-29

Abstract

Abstract: Formissionsofshorttermvisitstothemoon,thelunarascentstagerequirestheascendingmoduletoRendezvousanddock
interfacewiththecabininnoncoplanarity.Asolutiontosolveforthechangeoftheangleofascentplane(referredtoaswedgeangle) wasproposed，andwedgeangleoftheascendingorbitwasgivenbyusingthethreelinetheoremtoreducethedemandoftheemergencyreturntasktoreducetheworstplaneofthewholemissionperiod.Themethodofsolvingtheinclinationofthelandingtrackandtheascendingorbitwasgiven.Thesimulationresultsshowthattheproposedmethodissimpleandaccurate,providingreferenceforthedesignandanalysisofhumanlunarlanding.

Key words: lunar, humanlunarlanding, emergencyreturn, wedgeangle, orbitalinclination

CHEN Hai-Peng, YU Xue-Hao, HUANG Fei. Optimizationdesignofinclinationorbitofhumanlunarlandingemergencyreturntrajectory[J]. Chinese Space Science and Technology, 2017, 37(4): 69-74.

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https://journal26.magtechjournal.com/kjkxjs/EN/Y2017/V37/I4/69

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Optimizationdesignofinclinationorbitofhumanlunarlandingemergencyreturntrajectory

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