AbstractTo achieve a precise Mars landing, the autonomous navigation performance of Mars final approach phase need to be further improved. In this paper, an absolute navigation scheme for Mars finial approach phase using relative measurements of X-ray pulsars and Mars orbiter is proposed. By introducing the difference of time of arrival (DTOA) measurement, the states of approach spacecraft and orbiter are estimated at the same time. Compared to the navigation scheme based on the absolute measurements of pulsars, the error sources such as planetary ephemeris error, pulsar parameter uncertainties, and radio beacon position deviations, are correspondingly reduced or eliminated. Through observability analysis, the method of absolute navigation using relative information is proved observable under the condition of reasonable pulsars selection. The design optimization of beacon configuration based on the Fisher Information Matrix (FIM) is also carried out for achieving a better observability. Two navigation schemes respectively based on the absolute/relative measurements of X-ray pulsars are compared by numerical simulations, and the navigation performance is assessed and the feasibility of the proposed scheme is verified.

    HighlightsA navigation scheme using relative measurements for Mars final approach is proposed.The navigation scheme is proved observable with proper pulsar selection.A design optimization of beacon configuration based on FIM is carried out.The scheme can reduce impact of ephemeris error, angular error and orbit deviation.The scheme surpasses the accuracy of navigation scheme using absolute measurements.


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    Title :

    Absolute navigation for Mars final approach using relative measurements of X-ray pulsars and Mars orbiter


    Contributors:
    Wang, Shuo (author) / Cui, Pingyuan (author) / Gao, Ai (author) / Yu, Zhengshi (author) / Cao, Menglong (author)

    Published in:

    Acta Astronautica ; 138 ; 68-78


    Publication date :

    2017-05-20


    Size :

    11 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English




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