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helicopter rotorDrug
A parameter study is presented for active feedback control applied to a helicopter rotor blade during forward flight. The study was performed on an electromechanical apparatus which included a mechanical model rotor blade and electronic analog simulation of interaction between blade deflections and aerodynamic loading. Blade response parameters were obtained for simulated vortex impinging at the blade tip at one pulse per revolution, and for a pulse which traveled from the blade tip toward its root. Results show that the response in a 1 - 10-per-rev frequency band is diminished by the feedback action, but at the same time responses at frequencies above 10-per-rev become increasingly more prominent with increased feedback amplitude, and can ...
A study was conducted to investigate the effects of dynamic inflow on rotor-blade flapping and verti...
AbstractThis paper describes an electronically controlled active force control system developed to t...
A new, advanced system for active control of helicopters and its application to the solution of roto...
The development and testing of a feedback system designed to alleviate the violent blade first torsi...
A linearized model of rotorcraft dynamics has been developed through the use of symbolic automatic e...
The use of active blade pitch control to increase helicopter rotor/body damping is studied. Control ...
The results of an analytical study to evaluate the general response characteristics of a helicopter ...
Helicopter vibration signatures induced by severe atmospheric turbulence have been shown to differ c...
Lead-lag dampers are present in most rotor systems to provide the desired level of damping for all f...
This work presents a comprehensive computational analysis examining the potential of active flow con...
A type of active control for helicopters was designed and tested on a four foot diameter model rotor...
Helicopter vibration signatures induced by severe atmospheric turbulence have been shown to differ c...
In an effort to develop an active control technique for reducing helicopter vibrations stemming from...
A wind tunnel test program was conducted on an eight foot diameter model rotor system to determine b...
In the past few years, a number of studies have provided accurate flight test data for the control r...
A study was conducted to investigate the effects of dynamic inflow on rotor-blade flapping and verti...
AbstractThis paper describes an electronically controlled active force control system developed to t...
A new, advanced system for active control of helicopters and its application to the solution of roto...
The development and testing of a feedback system designed to alleviate the violent blade first torsi...
A linearized model of rotorcraft dynamics has been developed through the use of symbolic automatic e...
The use of active blade pitch control to increase helicopter rotor/body damping is studied. Control ...
The results of an analytical study to evaluate the general response characteristics of a helicopter ...
Helicopter vibration signatures induced by severe atmospheric turbulence have been shown to differ c...
Lead-lag dampers are present in most rotor systems to provide the desired level of damping for all f...
This work presents a comprehensive computational analysis examining the potential of active flow con...
A type of active control for helicopters was designed and tested on a four foot diameter model rotor...
Helicopter vibration signatures induced by severe atmospheric turbulence have been shown to differ c...
In an effort to develop an active control technique for reducing helicopter vibrations stemming from...
A wind tunnel test program was conducted on an eight foot diameter model rotor system to determine b...
In the past few years, a number of studies have provided accurate flight test data for the control r...
A study was conducted to investigate the effects of dynamic inflow on rotor-blade flapping and verti...
AbstractThis paper describes an electronically controlled active force control system developed to t...
A new, advanced system for active control of helicopters and its application to the solution of roto...
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