ImprovedINS/VNSIntegratedNavigationMeasurementModelforLunarRover

doi:10.3780/j.issn.1000-758X.2015.01.002

›› 2015, Vol. 35 ›› Issue (1): 9-18.doi: 10.3780/j.issn.1000-758X.2015.01.002

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ImprovedINS/VNSIntegratedNavigationMeasurementModelforLunarRover

NINGXiaolin, XUYongzhi

（SchoolofInstrumentScience&Opto-electronicsengineering, BeihangUniversity,Beijing100191）

Received:2014-10-10 Revised:2014-11-25 Published:2015-02-25 Online:2015-02-25

Abstract

Abstract: TheINS/VNSintegratednavigationisanimportantautonomousnavigationmethodforlunarrovers.TraditionalINS/VNSintegrated navigationmethodswhichutilizetherelativemotiondifferencesbetweentheinertialandthevisionasmeasurements,usually makeanapproximationbetweentheinertialattitudeerrorsandthemisalignmentangletosimplifytherelativerotation measurementmodel.However,theapproximationerrorcanexceedthemisalignmentanglewhentheheadislarge,which cannotbeignored. Tosolvethisproblem,anewmeasurementerroranalysismethodwaspresentedwhichcanavoidthe approximationintraditionalmethod,andbuildthecorrespondingimprovedmeasurementmodel. Theknowninertialattitudewhichcontainserrorutilizedtogetmoreaccurateerrorexpressionofrelativeinertialrotationquaternion,andreducetheforecasterrorofrelative rotationdifferencebetweentheinertialandthevision.BothoftheMoonbasedsimulationandtheEarth-basedexperiment demonstratethatthepresentedmethodiseffectiveandcanachievehigheraccuraciesofpositionsandattitudesthanthe traditionalone,inwhichthepositionaccuracyhasimproved68%from0.456%to0.143%intheEarth-basedexperiment.

Key words: Inertial/Visionintegratednavigation, Measurementmodel, Lunarrover, Quaternion, Erroranalysis

NING Xiao-Lin, XU Yong-Zhi. ImprovedINS/VNSIntegratedNavigationMeasurementModelforLunarRover[J]. , 2015, 35(1): 9-18.

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ImprovedINS/VNSIntegratedNavigationMeasurementModelforLunarRover

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