Abstract This paper considers robust disturbance observer design for an autonomous helicopter. The disturbance observer is a well-established method originally developed for the mitigation of disturbance effects in minimum-phase single-input single-output systems. Recently, the disturbance observer design has been extended to non-minimum-phase multiple-input multiple-output systems using an $${\mathcal {H}}_{\infty }$$ H ∞ method. Due to the applicability to non-minimum-phase systems, the new disturbance observer design becomes also attractive for aerospace applications. However, there are no guaranteed stability margins that can be achieved with the $${\mathcal {H}}_{\infty }$$ H ∞ -based design approach. In fact, stability margins may easily be degraded when the disturbance observer is integrated into an existing controller-plant closed-loop. In this paper, a robust disturbance observer design is proposed. Therefore, complex uncertainties are introduced to model gain and phase variations. Robustification of the observer is achieved using design principals of $$\mu$$ μ -synthesis. As consequence, the proposed method enhances the robust performance of the observer and leads to less degradation of stability margins in comparison to the original design procedure. An application example is provided which considers mitigation of wind effects for the inner-loop control of an unmanned helicopter.


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    Titel :

    Robust disturbance observer-based control of unmanned helicopter


    Weitere Titelangaben:

    CEAS Aeronaut J


    Beteiligte:
    Spiller, Mark (Autor:in) / Ehlert, Tobias (Autor:in) / Kleinhans, Frauke (Autor:in) / Schitz, Philipp (Autor:in) / Strbac, Alexander (Autor:in)

    Erschienen in:

    CEAS Aeronautical Journal ; 16 , 2 ; 629-640


    Erscheinungsdatum :

    01.04.2025




    Medientyp :

    Aufsatz (Zeitschrift)


    Format :

    Elektronische Ressource


    Sprache :

    Englisch




    Robust disturbance observer-based control of unmanned helicopter

    Spiller, Mark / Ehlert, Tobias / Kleinhans, Frauke et al. | Springer Verlag | 2025

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