This thesis focuses on the use of multiple redundant control surfaces to increase performance during flight. There is no clear-cut definition of performance. It may differ between applications, but here, the amount of drag for a given flight condition is used. The work is concentrated on minimizing drag with the use of measurements instead of numerical simulations. Measured data contains noise and there are problems with repeatability and hysteresis. These difficulties are considered and a method for drag minimization during flight is presented. In the first study the drag minimization algorithm is discussed. Focus is put on describing the implemented method and the treatment of constraints to the optimization problem. The constraints inclu...
The high lift systems of modern-day commercial airplanes are highly effective systems providing the ...
Although the aerospace sector is currently responsible for a relatively small portion of global anth...
Shape optimization of a flying aircraft in self-propelled, trimmed conditions requires augmentation ...
In this thesis, optimization is used to improve the performance of aircraft. The focus is on operati...
The Innovative Control Effector model is a tailless delta-wing aircraft concept equipped with 11 con...
The practical application of real-time performance optimization is addressed (using a wide-body tran...
A flight research program exploring the practical application of real-time performance optimization ...
An adaptive control method is presented for the minimization of drag during flight for transport air...
A real-time optimization strategy can provide any system with a considerable boost in performance on...
Two methods for scheduling the leading edge slat and optimizing lift-to-drag ratio (LDR) are compare...
The objective of the present dissertation is to show how redundant control surfaces can be exploited...
Optimal control settings (camber scheduling) can be used by aircraft to minimize drag at various ope...
Lift-induced drag is a significant part of total drag of airplane during flight, thus its minimizati...
A large-scale multi-disciplinary research project, CRIAQ 7.1, was undertaken to investigate a morph...
This paper contains a simulation study of a real-time adaptive least-squares drag minimization algor...
The high lift systems of modern-day commercial airplanes are highly effective systems providing the ...
Although the aerospace sector is currently responsible for a relatively small portion of global anth...
Shape optimization of a flying aircraft in self-propelled, trimmed conditions requires augmentation ...
In this thesis, optimization is used to improve the performance of aircraft. The focus is on operati...
The Innovative Control Effector model is a tailless delta-wing aircraft concept equipped with 11 con...
The practical application of real-time performance optimization is addressed (using a wide-body tran...
A flight research program exploring the practical application of real-time performance optimization ...
An adaptive control method is presented for the minimization of drag during flight for transport air...
A real-time optimization strategy can provide any system with a considerable boost in performance on...
Two methods for scheduling the leading edge slat and optimizing lift-to-drag ratio (LDR) are compare...
The objective of the present dissertation is to show how redundant control surfaces can be exploited...
Optimal control settings (camber scheduling) can be used by aircraft to minimize drag at various ope...
Lift-induced drag is a significant part of total drag of airplane during flight, thus its minimizati...
A large-scale multi-disciplinary research project, CRIAQ 7.1, was undertaken to investigate a morph...
This paper contains a simulation study of a real-time adaptive least-squares drag minimization algor...
The high lift systems of modern-day commercial airplanes are highly effective systems providing the ...
Although the aerospace sector is currently responsible for a relatively small portion of global anth...
Shape optimization of a flying aircraft in self-propelled, trimmed conditions requires augmentation ...