Highlights Proposed an artificial time-delay based robust guidance strategy for RLV system. A Lyapunov function based analysis ensures Uniformly Ultimately Bounded stability. Time varying disturbance and uncertainty in the inertia matrix have been considered. Simulation studies demonstrate efficient tracking of the reference trajectory.

    Abstract A Reusable Launch Vehicle (RLV), during the re-entry phase of its flight, experiences uncertain environment and extreme turbulence. This calls for an effective control strategy to guide the vehicle efficiently on a trajectory that allows safer landing conditions while providing robustness against external disturbances and system uncertainties. In this regard, a Time-Delayed Control (TDC) strategy has been proposed to track the space vehicle on a predetermined trajectory in the presence of these uncertainties. In the proposed approach, the system vector and the uncertainties are lumped into a single function which is estimated using the input and output data from the previous instant. Theoretical analysis of the control strategy executed using Lyapunov’s method, proves Uniformly Ultimately Bounded (UUB) stability of the closed loop system. The efficacy of the proposed approach has been verified through simulation studies which affirm robust tracking of the optimal trajectory generated through Pseudo-Spectral method (PSM), in the presence of time-varying uncertainties.


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    Title :

    Re-entry trajectory tracking of reusable launch vehicle using artificial delay based robust guidance law


    Contributors:

    Published in:

    Advances in Space Research ; 67 , 1 ; 557-570


    Publication date :

    2020-10-06


    Size :

    14 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English






    Entry Guidance and Trajectory Control for Reusable Launch Vehicles

    Lu, P. / American Institute of Aeronautics and Astronautics | British Library Conference Proceedings | 1996