Helicopter vibration signatures induced by severe atmospheric turbulence have been shown to differ considerably from nominal, still air vibration. The perturbations of the transmission frequency have significant implications for the design of passive and active vibration alleviation devices, which are generally tuned to the nominal vibration frequency. This thesis investigates the existence of the phenomena in several realistic atmospheric turbulence environments, generated using Computational Fluid Dynamic (CFD) engineering software and assimilated within a high-fidelity rotorcraft simulation, RASCAL. The RASCAL simulation is modified to calculate blade element sampling of the gust, enabling thorough, high frequency analyses of the rotor r...
A type of active control for helicopters was designed and tested on a four foot diameter model rotor...
Excessive vibration remains one one of the most difficult problems that faces the helicopter industr...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/57823/1/HHCJGCD2005.pd
Helicopter vibration signatures induced by severe atmospheric turbulence have been shown to differ c...
This work presents a comprehensive computational analysis examining the potential of active flow con...
A parameter study is presented for active feedback control applied to a helicopter rotor blade durin...
A control methodology is presented and applied to the simulation of helicopter manoeuvres using an ...
The feasibility of an adaptive control system designed to alleviate helicopter gust induced vibratio...
This dissertation presents an aeromechanical closed loop stability and response analysis of a hingel...
When a helicopter is required to hover with minimumdeviations from a desired position without measur...
Helicopters can experience high vibration levels, which reduce passenger comfort and cause progressi...
Two control schemes designed to alleviate gust-induced vibration are analytically investigated for a...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76087/1/AIAA-2004-1948-209.pd
The results of a joint NASA/Army/Bell Helicopter Textron wind-tunnel test to assess the potential of...
This paper presents the design and verification of a model based nonlinear feedforward controller fo...
A type of active control for helicopters was designed and tested on a four foot diameter model rotor...
Excessive vibration remains one one of the most difficult problems that faces the helicopter industr...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/57823/1/HHCJGCD2005.pd
Helicopter vibration signatures induced by severe atmospheric turbulence have been shown to differ c...
This work presents a comprehensive computational analysis examining the potential of active flow con...
A parameter study is presented for active feedback control applied to a helicopter rotor blade durin...
A control methodology is presented and applied to the simulation of helicopter manoeuvres using an ...
The feasibility of an adaptive control system designed to alleviate helicopter gust induced vibratio...
This dissertation presents an aeromechanical closed loop stability and response analysis of a hingel...
When a helicopter is required to hover with minimumdeviations from a desired position without measur...
Helicopters can experience high vibration levels, which reduce passenger comfort and cause progressi...
Two control schemes designed to alleviate gust-induced vibration are analytically investigated for a...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76087/1/AIAA-2004-1948-209.pd
The results of a joint NASA/Army/Bell Helicopter Textron wind-tunnel test to assess the potential of...
This paper presents the design and verification of a model based nonlinear feedforward controller fo...
A type of active control for helicopters was designed and tested on a four foot diameter model rotor...
Excessive vibration remains one one of the most difficult problems that faces the helicopter industr...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/57823/1/HHCJGCD2005.pd