Add to ORKGA linear modal control algorithm is applied to the NASA Oblique Wing Research Aircraft (OWRA). The control law is evaluated using a detailed nonlinear flight simulation. It is shown that the modal control law attenuates the coupling and nonlinear aerodynamics of the oblique wing and remains stable during control saturation caused by large command inputs or large external disturbances. The technique controls each natural mode independently allowing single-input/single-output techniques to be applied to multiple-input/multiple-output systems
A nonlinear modeling strategy is introduced to drive online optimization-based controllers for traje...
Modal regulators and deformation trackers are designed for an open-loop fluttering wing model. The r...
Nonlinear model-following control design is applied to the problem of control of the six degrees of ...
A variable-skew oblique wing offers a substantial aerodynamic performance advantage for aircraft mis...
The U.S. Navy and NASA are currently involved in the design and development of an unsymmetric-skew-w...
Recent interest in oblique-wing aircraft has focused on the potential aerodynamic performance advant...
AbstractThe movement characteristics and control response of oblique wing aircraft (OWA) are highly ...
Interest in oblique-wing aircraft has surfaced periodically since the 1940's. This concept offers so...
An efficient high speed aircraft design must achieve a high lift to drag ratio at transonic and supe...
The AD-1 manned flight test program was conducted to evaluate the stability, control and handling ch...
Through theoretical and analog results the effects of two nonlinear stability derivatives on the lon...
International audienceThe paper contributes towards the development of a unified control approach fo...
A preliminary design of a lateral-directional control system for a fighter airplane capable of contr...
Methods from linear control theory have a considerable share in the state-of-the-art toolbox for con...
Master’s thesis: "Design of the control algorithm for aircraft stabilization" summarizes aircraft ae...
A nonlinear modeling strategy is introduced to drive online optimization-based controllers for traje...
Modal regulators and deformation trackers are designed for an open-loop fluttering wing model. The r...
Nonlinear model-following control design is applied to the problem of control of the six degrees of ...
A variable-skew oblique wing offers a substantial aerodynamic performance advantage for aircraft mis...
The U.S. Navy and NASA are currently involved in the design and development of an unsymmetric-skew-w...
Recent interest in oblique-wing aircraft has focused on the potential aerodynamic performance advant...
AbstractThe movement characteristics and control response of oblique wing aircraft (OWA) are highly ...
Interest in oblique-wing aircraft has surfaced periodically since the 1940's. This concept offers so...
An efficient high speed aircraft design must achieve a high lift to drag ratio at transonic and supe...
The AD-1 manned flight test program was conducted to evaluate the stability, control and handling ch...
Through theoretical and analog results the effects of two nonlinear stability derivatives on the lon...
International audienceThe paper contributes towards the development of a unified control approach fo...
A preliminary design of a lateral-directional control system for a fighter airplane capable of contr...
Methods from linear control theory have a considerable share in the state-of-the-art toolbox for con...
Master’s thesis: "Design of the control algorithm for aircraft stabilization" summarizes aircraft ae...
A nonlinear modeling strategy is introduced to drive online optimization-based controllers for traje...
Modal regulators and deformation trackers are designed for an open-loop fluttering wing model. The r...
Nonlinear model-following control design is applied to the problem of control of the six degrees of ...