Understanding, predicting and supressing the inadvertent aircraft oscillations caused by Aircraft/Rotorcraft Pilot Couplings (A/RPC) is a challenging problem for designers. These are potential instabilities that arise from the effort of controlling aircraft with high response actuation systems. The present paper reviews, updates and discusses desirable practices to be used during the design process for unmasking A/RPC phenomena. These practices are stemming from the European Commission project ARISTOTEL Aircraft and Rotorcraft Pilot Couplings – Tools and Techniques for Alleviation and Detection (2010–2013) and are mainly related to aerodynamic and structural modelling of the aircraft/rotorcraft, pilot modelling and A/RPC prediction criteria...
For augmented helicopters with modern flight control systems, unintended and unexpected oscillations...
Nowadays, the complexity of high speed civil transport and highly-augmented rotorcraft, has led to a...
Unmasking Aircraft and Rotorcraft Pilot Couplings (A/RPC) prior to vehicle entry into service has be...
Understanding, predicting and supressing the inadvertent aircraft oscillations caused by Aircraft/Ro...
Fixed and rotary wing pilots alike are familiar with potential instabilities or with annoying limit ...
Fixed and rotary wing pilots alike are familiar with potential instabilities or with annoying limit ...
Abstract: Unintended and unexpected oscillations or divergences of the pilot-rotorcraft system have ...
Fixed and rotary wing pilots alike are familiar with potential instabilities or with annoying limit ...
Unintended and unexpected oscillations or divergences of the pilot-rotorcraft system have become a c...
Research activity and results obtained within the European project ARISTOTEL (2010-2013) are present...
For augmented helicopters with modern flight control systems, unintended and unexpected oscillations...
Nowadays, the complexity of high speed civil transport and highly-augmented rotorcraft, has led to a...
Unmasking Aircraft and Rotorcraft Pilot Couplings (A/RPC) prior to vehicle entry into service has be...
Understanding, predicting and supressing the inadvertent aircraft oscillations caused by Aircraft/Ro...
Fixed and rotary wing pilots alike are familiar with potential instabilities or with annoying limit ...
Fixed and rotary wing pilots alike are familiar with potential instabilities or with annoying limit ...
Abstract: Unintended and unexpected oscillations or divergences of the pilot-rotorcraft system have ...
Fixed and rotary wing pilots alike are familiar with potential instabilities or with annoying limit ...
Unintended and unexpected oscillations or divergences of the pilot-rotorcraft system have become a c...
Research activity and results obtained within the European project ARISTOTEL (2010-2013) are present...
For augmented helicopters with modern flight control systems, unintended and unexpected oscillations...
Nowadays, the complexity of high speed civil transport and highly-augmented rotorcraft, has led to a...
Unmasking Aircraft and Rotorcraft Pilot Couplings (A/RPC) prior to vehicle entry into service has be...