Add to ORKGThe use of active blade pitch control to increase helicopter rotor/body damping is studied. Control is introduced through a conventional nonrotating swashplate. State variable feedback of rotor and body states is used. Feedback parameters include cyclic rotor flap and lead-lag states, and body pitch and roll rotations. The use of position, rate, and acceleration feedback is studied for the various state variables. In particular, the influence of the closed loop feedback gain and phase on system stability is investigated. For the rotor/body configuration analyzed, rotor cyclic inplane motion and body roll-rate and roll-acceleration feedback can considerably augment system damping levels and eliminate ground resonance instabilities. Schedulin...
This paper describes in a concise manner three selected topics on the active control of helicopter a...
The University of Maryland Advanced Rotorcraft Code (UMARC) is utilized to study the effects of blad...
Increased safety and reduced workload are two main goals for helicopter pilot assistance systems. Fe...
Lead-lag dampers are present in most rotor systems to provide the desired level of damping for all f...
A new, advanced system for active control of helicopters and its application to the solution of roto...
Some of the considerations involved in the use of feedback control as a means of eliminating or alle...
A linearized model of rotorcraft dynamics has been developed through the use of symbolic automatic e...
Two control schemes designed to alleviate gust-induced vibration are analytically investigated for a...
A parameter study is presented for active feedback control applied to a helicopter rotor blade durin...
The air and ground resonance instabilities of hingeless rotor helicopters are examined on a relative...
In an effort to develop an active control technique for reducing helicopter vibrations stemming from...
As a helicopter transitions from hover to forward flight, the main rotor blades experience an asymme...
The utilization of rotor flapping in synthesizing an Individual Blade Control (IBC) system for gust ...
A type of active control for helicopters was designed and tested on a four foot diameter model rotor...
The development and testing of a feedback system designed to alleviate the violent blade first torsi...
This paper describes in a concise manner three selected topics on the active control of helicopter a...
The University of Maryland Advanced Rotorcraft Code (UMARC) is utilized to study the effects of blad...
Increased safety and reduced workload are two main goals for helicopter pilot assistance systems. Fe...
Lead-lag dampers are present in most rotor systems to provide the desired level of damping for all f...
A new, advanced system for active control of helicopters and its application to the solution of roto...
Some of the considerations involved in the use of feedback control as a means of eliminating or alle...
A linearized model of rotorcraft dynamics has been developed through the use of symbolic automatic e...
Two control schemes designed to alleviate gust-induced vibration are analytically investigated for a...
A parameter study is presented for active feedback control applied to a helicopter rotor blade durin...
The air and ground resonance instabilities of hingeless rotor helicopters are examined on a relative...
In an effort to develop an active control technique for reducing helicopter vibrations stemming from...
As a helicopter transitions from hover to forward flight, the main rotor blades experience an asymme...
The utilization of rotor flapping in synthesizing an Individual Blade Control (IBC) system for gust ...
A type of active control for helicopters was designed and tested on a four foot diameter model rotor...
The development and testing of a feedback system designed to alleviate the violent blade first torsi...
This paper describes in a concise manner three selected topics on the active control of helicopter a...
The University of Maryland Advanced Rotorcraft Code (UMARC) is utilized to study the effects of blad...
Increased safety and reduced workload are two main goals for helicopter pilot assistance systems. Fe...