Minimum energy-loss guidance for the aero-assisted plane change of an orbiting vehicle is developed and applied to the plane change of a circular orbit. First, trajectories which minimize the fuel required to change the orbital plane are computed for a realistic vehicle. From these trajectories, it is observed that the fuel weight is minimized if the velocity at exit from the atmosphere is maximized. Next, for the atmospheric turn, approximate optimal controls (angle of attack and bank angle) which maximize the exit velocity are derived. Finally, the minimum-fuel problem is resolved using optimal guidance for the atmospheric part of the trajectory, and the optimization problem reduces to a one-dimensional parameter minimization. Successful plane changes up to 40 deg are demonstrated. Optimal guidance requires up to 14 percent more fuel than the 'true' optimum but only 50 percent of the fuel required by the single-impulse maneuver. Finally, the guidance law developed here is implementable because only algebraic manipulations are required.


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    Title :

    Minimum energy-loss guidance for aero-assisted orbital plane change


    Contributors:
    Hull, D. G. (author) / Giltner, J. M. (author) / Speyer, J. L. (author) / Mapar, J. (author)

    Publication date :

    1984-01-01


    Type of media :

    Conference paper


    Type of material :

    No indication


    Language :

    English




    Minimum energy-loss guidance for aero-assisted orbital plane change

    HULL, D. / GILTNER, J. / SPEYER, J. et al. | AIAA | 1984


    Minimum energy-loss guidance for aeroassisted orbital plane change

    HULL, D. G. / GILTNER, J. M. / SPEYER, J. L. et al. | AIAA | 1985


    Minimum energy-loss guidance for aeroassisted orbital plane change

    Hull, D. G. / Giltner, J. M. / Speyer, J. L. et al. | NTRS | 1985



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    HULL, D. / SPEYER, J. / MCCLENDON, J. | AIAA | 1986