Add to ORKGAn analytical model of a 3-D airfoil was used to study an optimization procedure formulated to enhance stability of an airfoil through integrated structural and control synthesis. This procedure is discussed together with preliminary results. These results show that a sensitivity derivative approach utilizing structural parameters, weighting matrix parameters and optimal control parameters (in this case, the design airspeed) is effective in determining the best structural/control design
An analytical and mechanization study was conducted for two flutter stability augmentation systems. ...
Presented at the 7th AIAA/USAF/NASA/ISSMO Symposium on Multidisciplinary Analysis and Optimization, ...
This paper considers the aeroelastic optimization of a subsonic transport wingbox under a variety of...
Aeroservoelastic optimization techniques were studied to determine a methodology for maximization of...
An analytical model has been used to study the problem of integrated control system/structural dynam...
The development is described of an integrated structure/active control law design methodology for ae...
Efficient analytical and computational tools for simultaneous optimal design of the structural and c...
The importance of interactions among the various disciplines in airplane wing design has been recogn...
Research activities concerning active control aeroelasticity are discussed. In aeroservoelastic syst...
Numerical analysis of derivatives of flutter velocity of aircraft structures to determine optimizati...
This research focused on incorporating stability and control into a multidisciplinary de- sign optim...
Two analytical flutter solution approaches have been developed to optimize two and three dimensional...
The efficient design of aircraft structure involves a series of compromises among various engineerin...
A control law synthesis methodology for multifunctional active control system to satisfy root-mean-s...
Presented at the 6th AIAA/USAF/NASA/ISSMO Symposium on Multidisciplinary Analysis and Optimization, ...
An analytical and mechanization study was conducted for two flutter stability augmentation systems. ...
Presented at the 7th AIAA/USAF/NASA/ISSMO Symposium on Multidisciplinary Analysis and Optimization, ...
This paper considers the aeroelastic optimization of a subsonic transport wingbox under a variety of...
Aeroservoelastic optimization techniques were studied to determine a methodology for maximization of...
An analytical model has been used to study the problem of integrated control system/structural dynam...
The development is described of an integrated structure/active control law design methodology for ae...
Efficient analytical and computational tools for simultaneous optimal design of the structural and c...
The importance of interactions among the various disciplines in airplane wing design has been recogn...
Research activities concerning active control aeroelasticity are discussed. In aeroservoelastic syst...
Numerical analysis of derivatives of flutter velocity of aircraft structures to determine optimizati...
This research focused on incorporating stability and control into a multidisciplinary de- sign optim...
Two analytical flutter solution approaches have been developed to optimize two and three dimensional...
The efficient design of aircraft structure involves a series of compromises among various engineerin...
A control law synthesis methodology for multifunctional active control system to satisfy root-mean-s...
Presented at the 6th AIAA/USAF/NASA/ISSMO Symposium on Multidisciplinary Analysis and Optimization, ...
An analytical and mechanization study was conducted for two flutter stability augmentation systems. ...
Presented at the 7th AIAA/USAF/NASA/ISSMO Symposium on Multidisciplinary Analysis and Optimization, ...
This paper considers the aeroelastic optimization of a subsonic transport wingbox under a variety of...