Active vibration control is a widely implemented method for the helicopter vibration control. Due to the significant progress in microelectronics, this technique outperforms the traditional passive control technique due to weight penalty and lack of adaptability for the changing flight conditions. In this thesis, an optimal controller is designed to attenuate the rotor blade vibration. The mathematical model of the triply coupled vibration of the rotating cantilever beam is used to develop the state-space model of an isolated rotor blade. The required natural frequencies are determined by the modified Galerkin method and only the principal aerodynamic forces acting on the structure are considered to obtain the elements of the input matrix. ...
A smart active vibration control (AVC) system containing piezoelectric (PZT) actuators, jointly with...
An individual blade controller designed to attenuate the aeroelastic response of helicopter rotors i...
Active integral twist control for vibration reduction of helicopter rotors during forward flight is ...
This paper presents an advanced controller design methodology for vibration alleviation of helicopte...
The paper presents the theoretical basis for the simulation of active helicopter blades. The analysi...
A set of nonlinear, intrinsic equations describing the dynamics of beam structures under-going large...
This thesis presents the development and implementation of a comprehensive helicopter active rotor m...
The use of multiple active trailing edge flaps for vibration reduction in a helicopter rotor is inve...
This paper presents an active control strategy, based on a time-varying linear–quadratic optimal con...
Active/passive optimization of helicopter rotor blades for vibration reduction and per-formance enha...
Helicopter fuselage vibrations are of significant levels and produce a unique vibration problem. Red...
In the report, the investigation of controlling helicopter-blade lead-lag vibration is described. Cu...
Exploiting the properties of piezoelectric materials to minimize vibration in rotor-blade actuators,...
An aeroelastic model of a smart rotor system (which incorporates blade-mounted trailing-edge flap ac...
Abstract. This paper describes the fundamental design approach of a mechanical device using smart st...
A smart active vibration control (AVC) system containing piezoelectric (PZT) actuators, jointly with...
An individual blade controller designed to attenuate the aeroelastic response of helicopter rotors i...
Active integral twist control for vibration reduction of helicopter rotors during forward flight is ...
This paper presents an advanced controller design methodology for vibration alleviation of helicopte...
The paper presents the theoretical basis for the simulation of active helicopter blades. The analysi...
A set of nonlinear, intrinsic equations describing the dynamics of beam structures under-going large...
This thesis presents the development and implementation of a comprehensive helicopter active rotor m...
The use of multiple active trailing edge flaps for vibration reduction in a helicopter rotor is inve...
This paper presents an active control strategy, based on a time-varying linear–quadratic optimal con...
Active/passive optimization of helicopter rotor blades for vibration reduction and per-formance enha...
Helicopter fuselage vibrations are of significant levels and produce a unique vibration problem. Red...
In the report, the investigation of controlling helicopter-blade lead-lag vibration is described. Cu...
Exploiting the properties of piezoelectric materials to minimize vibration in rotor-blade actuators,...
An aeroelastic model of a smart rotor system (which incorporates blade-mounted trailing-edge flap ac...
Abstract. This paper describes the fundamental design approach of a mechanical device using smart st...
A smart active vibration control (AVC) system containing piezoelectric (PZT) actuators, jointly with...
An individual blade controller designed to attenuate the aeroelastic response of helicopter rotors i...
Active integral twist control for vibration reduction of helicopter rotors during forward flight is ...