The objective of the advanced launch system (ALS) program is to develop a family of launch vehicles which provides a substantial improvement in reliability, operability, and economy over existing systems. This requires that autopilot design and verification procedures be of minimum sensitivity to recurring costs while providing adequate, but not necessarily optimal, vehicle performance. One approach to accomplishing this task, namely, the utilization of advanced control design and analysis techniques, is considered. It is shown that the techniques, which represent a cross-section of developments in control theory, attempt to solve the ALS control problem in one of two ways: given increased knowledge of the launch vehicle and its environment, through greater model fidelity and additional sensor data; and autopilot design in the presence of quantified model/disturbance uncertainties and less stringent sensing requirements. It is concluded that the methods are promising and cost effective.


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    Title :

    Advanced concepts for launch vehicle control


    Additional title:

    Fortschrittliche Konzepte für Raumfahrzeug-Regelung


    Contributors:
    Sifer, J.F. (author) / Prouty, S.J. (author) / Mak, P.H. (author)


    Publication date :

    1991


    Size :

    7 Seiten, 12 Quellen




    Type of media :

    Article (Journal)


    Type of material :

    Print


    Language :

    English




    Advanced launch vehicle concepts

    Bono, P. | Engineering Index Backfile | 1963


    Advanced concepts for launch vehicle control

    Sifer, J.F. / Prouty, S.J. / Mak, P.H. | IEEE | 1991


    Advanced launch vehicle concepts

    Bono, P. | Engineering Index Backfile | 1963


    Advanced concepts for launch vehicle control

    Sifer, J.F. / Prouty, S.J. / Mak, P.H. | Tema Archive | 1990