The effects of active controls on the suppression of flutter and gust alleviation of two different types of subsonic aircraft (the Arava, twin turboprop STOL transport, and the Westwind twin-jet business transport) are investigated. The active controls are introduced in pairs which include, in any chosen wing strip, a leading-edge (LE) control and a trailing-edge (TE) control. Each control surface is allowed to be driven by a combined linear-rotational sensor system, located on the activated strip. The control law, which translates the sensor signals into control surface rotations, is based on the concept of aerodynamic energy. The results indicate the extreme effectiveness of the active systems in controlling flutter. A single system spann...
Analytical design techniques for active and passive control of aeroelastic systems are based on a ra...
The design of the flutter suppression system for a remotely-piloted research vehicle is described. T...
Flutter is an unstable oscillation caused by the interaction of aerodynamics and structural dynamics...
The effects of active controls on flutter suppression and gust alleviation of the Arava twin turbopr...
Application of the aerodynamic energy approach to some problems of flutter suppression and gust alle...
Results of work done on active controls on the modified YF-17 flutter model are summarized. The basi...
A general discussion of the airplane applications of active flutter suppression systems is presented...
Two flutter suppression control laws wre designed and tested on a low speed aeroelastic model of a D...
The application of active control technology to the suppression of flutter has been successfully dem...
Control laws are derived, by using realizable transfer functions, which permit relaxation of the sta...
The synthesis, implementation, and wind tunnel test of two flutter suppression control laws for an a...
Three control law design techniques for flutter suppression are presented. Each technique uses multi...
Active wing load alleviation to extend the wing span by 5.8 percent, giving a 3 percent reduction in...
This paper presents an experimental implementation of an active control system used to suppress flut...
The synthesis and experimental validation of a control law for13; an actiqe flutter suppression syst...
Analytical design techniques for active and passive control of aeroelastic systems are based on a ra...
The design of the flutter suppression system for a remotely-piloted research vehicle is described. T...
Flutter is an unstable oscillation caused by the interaction of aerodynamics and structural dynamics...
The effects of active controls on flutter suppression and gust alleviation of the Arava twin turbopr...
Application of the aerodynamic energy approach to some problems of flutter suppression and gust alle...
Results of work done on active controls on the modified YF-17 flutter model are summarized. The basi...
A general discussion of the airplane applications of active flutter suppression systems is presented...
Two flutter suppression control laws wre designed and tested on a low speed aeroelastic model of a D...
The application of active control technology to the suppression of flutter has been successfully dem...
Control laws are derived, by using realizable transfer functions, which permit relaxation of the sta...
The synthesis, implementation, and wind tunnel test of two flutter suppression control laws for an a...
Three control law design techniques for flutter suppression are presented. Each technique uses multi...
Active wing load alleviation to extend the wing span by 5.8 percent, giving a 3 percent reduction in...
This paper presents an experimental implementation of an active control system used to suppress flut...
The synthesis and experimental validation of a control law for13; an actiqe flutter suppression syst...
Analytical design techniques for active and passive control of aeroelastic systems are based on a ra...
The design of the flutter suppression system for a remotely-piloted research vehicle is described. T...
Flutter is an unstable oscillation caused by the interaction of aerodynamics and structural dynamics...