Add to ORKGBiodynamic feedthrough (BDFT) may significantly affect the closed-loop behavior of rotorcraft, reducing the stability and increasing the proneness to Rotorcraft-Pilot Couplings (RPC). Leveraging robust stability analysis, the inherently uncertain pilot BDFT can be treated as the uncertain portion of a feedback system, allowing analytical, numerical or graphical determination of proneness to RPC by comparing robust stability margins of helicopter models with BDFT data. The application of the proposed approach to collective bounce is exemplified using simple analytical helicopter and pilot BDFT models, and applied to detailed helicopter models and BDFT measurement data
This paper discusses the impact of different aerodynamics models on rotorcraft-pilot couplings stabi...
This paper discusses the impact of different models of aerodynamic loads on rotorcraft-pilot couplin...
Biodynamic feedthrough (BDFT) occurs when vehicle vibrations and accelerations feed through the pilo...
The coupling of rotorcraft dynamics with the dynamics of one of the main systems devoted to its cont...
The coupling of rotorcraft dynamics with the dynamics of one of the main systems devoted to its cont...
Aircraft-Pilot Couplings, namely the adverse interaction of the pilot with the aeromechanics of airc...
This paper investigates the roll/lateral rotorcraft–pilot coupling, a phenomenon caused by the inter...
Biodynamic feedthrough (BDFT) refers to a phenomenon where vehicle accelerations cause involuntary p...
Biodynamic feedthrough (BDFT) occurs when vehicle vibrations and accelerations feed through the pilo...
This work discusses the dependence of helicopter aeroelastic stability on the pilot's biodynamic fee...
The authors thank Joost Venrooij, Project Leader at the Max Planck Institute for Biological Cybernet...
Fixed and rotary wing pilots alike are familiar with potential instabilities or with annoying limit ...
This paper discusses the impact of different aerodynamics models on rotorcraft-pilot couplings stabi...
This paper discusses the impact of different models of aerodynamic loads on rotorcraft-pilot couplin...
Biodynamic feedthrough (BDFT) occurs when vehicle vibrations and accelerations feed through the pilo...
The coupling of rotorcraft dynamics with the dynamics of one of the main systems devoted to its cont...
The coupling of rotorcraft dynamics with the dynamics of one of the main systems devoted to its cont...
Aircraft-Pilot Couplings, namely the adverse interaction of the pilot with the aeromechanics of airc...
This paper investigates the roll/lateral rotorcraft–pilot coupling, a phenomenon caused by the inter...
Biodynamic feedthrough (BDFT) refers to a phenomenon where vehicle accelerations cause involuntary p...
Biodynamic feedthrough (BDFT) occurs when vehicle vibrations and accelerations feed through the pilo...
This work discusses the dependence of helicopter aeroelastic stability on the pilot's biodynamic fee...
The authors thank Joost Venrooij, Project Leader at the Max Planck Institute for Biological Cybernet...
Fixed and rotary wing pilots alike are familiar with potential instabilities or with annoying limit ...
This paper discusses the impact of different aerodynamics models on rotorcraft-pilot couplings stabi...
This paper discusses the impact of different models of aerodynamic loads on rotorcraft-pilot couplin...
Biodynamic feedthrough (BDFT) occurs when vehicle vibrations and accelerations feed through the pilo...