Add to ORKGIn some situations, closed loop control by the pilot can result in the combined pilot-aircraft system becoming marginally stable or even unstable. This can happen whether the pilot is controlling attitude or flight path. In this paper, an investigation into helicopter stability under flight-path constraint below the minimum-power speed is reported. The work provides a theoretical basis for flight path handling qualities criteria particularly for flight on the, so-called, back-side of the power curve. The research uses the theory of weakly coupled systems by partitioning the helicopter longitudinal dynamics to investigate three interacting subsystems – classically the surge mode, the phugoid mode and the heave mode. Under certain c...
The paper reassesses the mechanism of biodynamical feedthrough coupling to helicopter body motion in...
The paper investigates the basic mechanism of aeroservoelastic Pilot Assisted Oscillation phenomenon...
Fixed and rotary wing pilots alike are familiar with potential instabilities or with annoying limit ...
In some situations, closed loop control by the pilot can result in the combined pilot-aircraft syst...
AbstractThis paper addresses the potential impact of adverse aircraft-pilot couplings on tiltrotor s...
This paper investigates the roll/lateral rotorcraft–pilot coupling, a phenomenon caused by the inter...
The terminology 'rotorcraft-pilot coupling' denotes phenomena arising from interaction between pilot...
The coupling of rotorcraft dynamics with the dynamics of one of the main systems devoted to its cont...
In circumstances where a pilot is forced to follow a specified flight path, such as during a landin...
Rotorcraft-pilot couplings denote interactions between pilot and helicopter (tiltrotors) that may b...
The coupling of rotorcraft dynamics with the dynamics of one of the main systems devoted to its cont...
Abstract: Unintended and unexpected oscillations or divergences of the pilot-rotorcraft system have ...
Rotorcraft–pilot coupling (RPC) denotes inter- play between pilot and helicopter (or tiltrotor) tha...
This work presents an experimental study that investigated the possibility of destabilising a rotorc...
The paper reassesses the mechanism of biodynamical feedthrough coupling to helicopter body motion in...
The paper investigates the basic mechanism of aeroservoelastic Pilot Assisted Oscillation phenomenon...
Fixed and rotary wing pilots alike are familiar with potential instabilities or with annoying limit ...
In some situations, closed loop control by the pilot can result in the combined pilot-aircraft syst...
AbstractThis paper addresses the potential impact of adverse aircraft-pilot couplings on tiltrotor s...
This paper investigates the roll/lateral rotorcraft–pilot coupling, a phenomenon caused by the inter...
The terminology 'rotorcraft-pilot coupling' denotes phenomena arising from interaction between pilot...
The coupling of rotorcraft dynamics with the dynamics of one of the main systems devoted to its cont...
In circumstances where a pilot is forced to follow a specified flight path, such as during a landin...
Rotorcraft-pilot couplings denote interactions between pilot and helicopter (tiltrotors) that may b...
The coupling of rotorcraft dynamics with the dynamics of one of the main systems devoted to its cont...
Abstract: Unintended and unexpected oscillations or divergences of the pilot-rotorcraft system have ...
Rotorcraft–pilot coupling (RPC) denotes inter- play between pilot and helicopter (or tiltrotor) tha...
This work presents an experimental study that investigated the possibility of destabilising a rotorc...
The paper reassesses the mechanism of biodynamical feedthrough coupling to helicopter body motion in...
The paper investigates the basic mechanism of aeroservoelastic Pilot Assisted Oscillation phenomenon...
Fixed and rotary wing pilots alike are familiar with potential instabilities or with annoying limit ...