Add to ORKGInternational audienceThis paper describes an energetic method using multibond graphs to model multi-physical systems. Its potential in building physical meaningful graphs that represent equivalent mathematical models of classic analytical approaches is shown. An application to the study of an aeroelastic rotorcraft-pilot coupling is studied by analyzing the passive pilot behavior in the cyclic control loop. A rotorcraft in hover flight is simulated and perturbed on its rolling motion axis. Depending on the rotorcraft characteristics air resonance may occur, and the pilot may involuntarily excite the cyclic lever, increasing the rolling motion of the fuselage to an unstable point. Future work will explore eventual alternative solutions to n...
A helicopter flight axis control, which is a complex multi-physic system, is modelled using an energ...
A helicopter flight axis control, which is a complex multi-physic system, is modelled using an energ...
A contribution is proposed for the modeling of mechanical systems using multibond graphs. When model...
This paper describes an energetic method using multibond graphs to model multi-physical systems. Its...
Presented at the AHS 69th Annual Forum, Phoenix, Arizona, May 21 –23, 2013. Copyright © 2013 by the...
Rotorcraft are complex systems and are thus sources of recurring (i.e. for many new design projects)...
Les hélicoptères sont le siège de comportements dynamiques difficiles à maîtriser et récurrents en p...
Under certain flight conditions, a rotorcraft fuselage motions and vibrations might interact with it...
Due to the operation of the rotor, the helicopter is subject to important vibration levels affecting...
Under certain flight conditions, rotorcrafts might suffer from the emergence of undesirable oscillat...
This paper presents a bond graph model of a helicopter’s semiactive suspension and the associated si...
De par le fonctionnement de son rotor, l'hélicoptère est le siège de vibrations mécaniques important...
A helicopter flight axis control, which is a complex multi-physic system, is modelled using an energ...
A helicopter flight axis control, which is a complex multi-physic system, is modelled using an energ...
A contribution is proposed for the modeling of mechanical systems using multibond graphs. When model...
This paper describes an energetic method using multibond graphs to model multi-physical systems. Its...
Presented at the AHS 69th Annual Forum, Phoenix, Arizona, May 21 –23, 2013. Copyright © 2013 by the...
Rotorcraft are complex systems and are thus sources of recurring (i.e. for many new design projects)...
Les hélicoptères sont le siège de comportements dynamiques difficiles à maîtriser et récurrents en p...
Under certain flight conditions, a rotorcraft fuselage motions and vibrations might interact with it...
Due to the operation of the rotor, the helicopter is subject to important vibration levels affecting...
Under certain flight conditions, rotorcrafts might suffer from the emergence of undesirable oscillat...
This paper presents a bond graph model of a helicopter’s semiactive suspension and the associated si...
De par le fonctionnement de son rotor, l'hélicoptère est le siège de vibrations mécaniques important...
A helicopter flight axis control, which is a complex multi-physic system, is modelled using an energ...
A helicopter flight axis control, which is a complex multi-physic system, is modelled using an energ...
A contribution is proposed for the modeling of mechanical systems using multibond graphs. When model...