Adaptive guidance technology is developed to expand the potential of adaptive control when applied to autonomous launch systems. Pseudo-control hedging is applied to implement a fully integrated approach to direct adaptive guidance and control. For rocket powered vehicles, a recoverable failure generally leads to a reduction in total control authority. Pseudo-control hedging was developed to prevent the adaptive law from "seeing" and adapting to select vehicle input characteristics such as actuator position and rate limits and linear input dynamics. In this work, a previously developed adaptive inner-loop provides fault tolerance using an inverting control system design augmented with a neural net. An adaptive outer-loop is introduced that provides closed-loop guidance for reference trajectory tracking. The outer-loop adapts to force perturbations, the inner-loop to moment perturbations. The outer-loop is hedged to prevent adaptation to inner-loop dynamics. The hedge also enables adaptation at control limits, and eliminates the need for time-scale separation of inner and outer-loop dynamics, which is important for abort scenarios. The paper develops the methodology for adaptive trajectory following and control. Numerical simulation results in representative failure scenarios for the X-33 reusable launch vehicle demonstrator are presented. A brief summary of an autonomous guidance and control system appropriate for future reusable launch vehicles is given. The components developed are applied in such an architecture.


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    Title :

    Adaptive guidance and control for autonomous launch vehicles


    Contributors:
    Johnson, E.N. (author) / Calise, A.J. (author) / Corban, J.E. (author)


    Publication date :

    2001-01-01


    Size :

    1240611 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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