The Galileo Jupiter orbital mission using the Low Gain Antenna (LGA) requires a higher degree of spacecraft state knowledge than was originally anticipated. Key elements of the revised design include onboard buffering of science and engineering data and extensive processing of data prior to downlink. In order to prevent loss of data resulting from overflow of the buffers and to allow efficient use of the spacecraft resources, ground based models of the spacecraft processes will be implemented. These models will be integral tools in the development of satellite encounter sequences and the cruise/playback sequences where recorded data is retrieved.


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    Title :

    Galileo Spacecraft Modeling for Orbital Operations


    Contributors:
    Nilsen, E. (author) / McLaughlin, B. (author)

    Publication date :

    1994-11-14


    Type of media :

    Miscellaneous


    Type of material :

    No indication


    Language :

    English




    Galileo spacecraft modeling for orbital operations

    Mclaughlin, Bruce A. / Nilsen, Erik N. | NTRS | 1994


    Galileo Spacecraft Modeling for Orbital Operations

    McLaughlin, B. A. / Nilsen, E. N. / Goddard Space Flight Center | British Library Conference Proceedings | 1994


    Galileo Spacecraft Modeling for Orbital Operations

    B. A. Mclaughlin / E. N. Nilsen | NTIS | 1994


    Galileo Spacecraft Operations

    Landano, M. R. | NTRS | 1997


    Galileo Spacecraft Operations

    Landano, M. R. / Astronomical Observatory of Padova / United States; National Aeronautics and Space Administration et al. | British Library Conference Proceedings | 1997