The application of extended Kalman filtering to estimating the Space Shuttle Propulsion performance, i.e., specific impulse, from flight data in a post-flight processing computer program is detailed. The flight data used include inertial platform acceleration, SRB head pressure, SSME chamber pressure and flow rates, and ground based radar tracking data. The key feature in this application is the model used for the SRB's, which is a nominal or reference quasi-static internal ballistics model normalized to the propellant burn depth. Dynamic states of mass overboard and propellant burn depth are included in the filter model to account for real-time deviations from the reference model used. Aerodynamic, plume, wind and main engine uncertainties are also included for an integrated system model. Assuming uncertainty within the propulsion system model and attempts to estimate its deviations represent a new application of parameter estimation for rocket powered vehicles. Illustrations from the results of applying this estimation approach to several missions show good quality propulsion estimates.


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    Title :

    Space Shuttle Propulsion Estimation Development Verification


    Contributors:

    Publication date :

    1989


    Size :

    198 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English






    Space shuttle propulsion

    Douglass, H. W. | NTRS | 1970



    Space Shuttle Propulsion

    H. W. Douglass | NTIS | 1970