An experiment consists of a remote-controlled T-REX 600E Pro helicopter piloted above an underway 108-foot Patrol Craft’s (YP) flight deck to analyze the effect of ReH ≈ 3.4×10 5 turbulent ship air wake on helicopter angular motion. The motion is measured by an inertial measurement unit (IMU) sensor mounted on the helicopter transmitting variably-spaced data in a 3-D Cartesian reference frame. Data is collected with the helicopter in locations above the flight deck which closely match actual takeoff/landing positions of US Navy H-60 helicopters above flight decks of air-capable ships (CG/DDG/FFG). This method is both an indirect way of qualifying the flow field and a practical way of measuring the actual effects of ship air wake turbulence ...
This paper describes an investigation of the air flow over the flight deck of a twin-island ...
The paper presents the experimental investigation of the aerodynamic interaction between a helicopte...
This thesis has been completed as a requirement for a higher degree of the University of Southampton...
There are problems specific to the helicopter/ship dynamic interface that limit helicopter operation...
Accurate simulation of helicopters in an at-sea-shipboard environment is desired to provide realisti...
The work reported in this thesis has investigated the impact of ship superstructure geometry on heli...
A conventional helicopter flight dynamics model, which can be coupled with ship airwake date, is dev...
This paper presents an analysis of the unsteady aerodynamic loading of a helicopter immersed in the ...
Operating helicopters in a naval environment is challenging because it imposes a pilot workload sign...
This paper describes the use of Computational Fluid Dynamics (CFD) data to improve the fidelity of h...
This work presents a comprehensive first principles physics-based simulation capability for helicopt...
This paper describes helicopter model development work which will be used in the next stage of a res...
Vertical replenishment (VERTREP) of underway fleet naval vessels by helicopter is the primary missio...
A computational fluid dynamics model of a hovering helicopter main rotor is developed to examine air...
Helicopters are one of the most important tactical elements in maritime operations. The necessity to...
This paper describes an investigation of the air flow over the flight deck of a twin-island ...
The paper presents the experimental investigation of the aerodynamic interaction between a helicopte...
This thesis has been completed as a requirement for a higher degree of the University of Southampton...
There are problems specific to the helicopter/ship dynamic interface that limit helicopter operation...
Accurate simulation of helicopters in an at-sea-shipboard environment is desired to provide realisti...
The work reported in this thesis has investigated the impact of ship superstructure geometry on heli...
A conventional helicopter flight dynamics model, which can be coupled with ship airwake date, is dev...
This paper presents an analysis of the unsteady aerodynamic loading of a helicopter immersed in the ...
Operating helicopters in a naval environment is challenging because it imposes a pilot workload sign...
This paper describes the use of Computational Fluid Dynamics (CFD) data to improve the fidelity of h...
This work presents a comprehensive first principles physics-based simulation capability for helicopt...
This paper describes helicopter model development work which will be used in the next stage of a res...
Vertical replenishment (VERTREP) of underway fleet naval vessels by helicopter is the primary missio...
A computational fluid dynamics model of a hovering helicopter main rotor is developed to examine air...
Helicopters are one of the most important tactical elements in maritime operations. The necessity to...
This paper describes an investigation of the air flow over the flight deck of a twin-island ...
The paper presents the experimental investigation of the aerodynamic interaction between a helicopte...
This thesis has been completed as a requirement for a higher degree of the University of Southampton...