Abstract Rotorcraft–pilot coupling (RPC) denotes interplay between pilot and helicopter (or tiltrotor) that may give rise to adverse phenomena. These are usually divided into two main classes: pilot-induced oscillations driven by flight dynamics and behavioural processes, and pilot-assisted oscillations (PAO) caused by unintentional actions of pilot on controls, owing to involuntary reaction to seat vibrations. The aim of this paper is the development of mathematical helicopter models suited for analysis of RPC phenomena. In addition to rigid-body dynamics, RPCs (especially PAO) are also related to fuselage structural dynamics and servoelasticity; however, a crucial role is played by main rotor aeroelasticity. In this work, the aeroelastic behaviour of the main rotor is simulated through a novel finite-state modeling that may conveniently be applied for rotorcraft stability and response analyses, as well as for control synthesis applications. Numerical results, first are focused on the validation of the proposed novel main rotor model, and then present applications of the developed comprehensive rotorcraft model for the RPC analysis of a Bo-105-type helicopter. Specifically, these deal with the stability of vertical bouncing, which is a PAO phenomenon caused by coupling of vertical pilot seat acceleration with collective control stick, driven by inadvertent pilot actions. Further, considering quasi-steady, airfoil theory with wake inflow correction and three-dimensional, potential-flow, boundary element method approaches, the sensitivity of PAO simulations to different aerodynamic load models applied within the main rotor aeroelastic operator is also investigated.


    Access

    Check access

    Check availability in my library

    Order at Subito €


    Export, share and cite



    Title :

    A finite-state aeroelastic model for rotorcraft–pilot coupling analysis


    Contributors:

    Published in:

    Publication date :

    2013-07-31


    Size :

    11 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English




    A finite-state aeroelastic model for rotorcraft–pilot coupling analysis

    Serafini, Jacopo / Molica Colella, Marco / Gennaretti, Massimo | Online Contents | 2013



    Experimental and numerical helicopter pilot characterization for aeroelastic rotorcraft–pilot coupling analysis

    Masarati, Pierangelo / Quaranta, Giuseppe / Jump, Michael | SAGE Publications | 2013


    Theoretical and Experimental Investigation of Aeroelastic Rotorcraft-Pilot Coupling

    Quaranta, G. / Lu, L. / Jump, M. et al. | British Library Conference Proceedings | 2012


    Experimental and numerical helicopter pilot characterization for aeroelastic rotorcraft-pilot coupling analysis

    Masarati, Pierangelo / Quaranta, Giuseppe / Jum, Michael | Tema Archive | 2013