Add to ORKGThis paper presents an approach to on-line control design for aircraft that have suffered either actuator failure, missing effector surfaces, surface damage, or any combination. The approach is based on a modified version of nonlinear dynamic inversion. The approach does not require a model of the baseline vehicle (effectors at zero deflection), but does require feedback of accelerations and effector positions. Implementation issues are addressed and the method is demonstrated on an advanced tailless aircraft. An experimental simulation analysis tool is used to directly evaluate the nonlinear system's stability robustness
A worldwide civil aviation accident survey for the period of 2002 till 2011, conducted by the CAA-UK...
A high fidelity aircraft simulation model, reconstructed using the Digital Flight Data Recorder (DFD...
This paper presents a flight control strategy based on nonlinear dynamic inversion. The approach pre...
This paper presents a study on fault tolerant flight control of a benchmark aircraft model, using a ...
This paper deals with aircraft trajectory control in the presence of model uncertainties and actuato...
This paper describes a general form of nonlinear dynamic inversion control for use in a generic nonl...
A methodology is presented for the design of flight control systems that exhibit stability and perfo...
This paper describes the design, implementation and flight testing of flight control laws based on I...
A flight control system for a tilt rotor UAV has been synthesized based on an incremental nonlinear ...
A flight control system for a tilt rotor UAV has been synthesized based on an incremental nonlinear ...
This paper describes a reconfiguring flight control algorithm for damaged aircraft based upon a modu...
Aircraft control normally relies on gain-scheduling of linear control laws, an approach that has bee...
A nonlinear flight controller is developed using dynamic inversion principles. The nonlinearities in...
A multi-input, multi-output reconfigurable flight control system design utilizing a robust controlle...
This paper describes the design, implementation and flight testing of flight control laws based on I...
A worldwide civil aviation accident survey for the period of 2002 till 2011, conducted by the CAA-UK...
A high fidelity aircraft simulation model, reconstructed using the Digital Flight Data Recorder (DFD...
This paper presents a flight control strategy based on nonlinear dynamic inversion. The approach pre...
This paper presents a study on fault tolerant flight control of a benchmark aircraft model, using a ...
This paper deals with aircraft trajectory control in the presence of model uncertainties and actuato...
This paper describes a general form of nonlinear dynamic inversion control for use in a generic nonl...
A methodology is presented for the design of flight control systems that exhibit stability and perfo...
This paper describes the design, implementation and flight testing of flight control laws based on I...
A flight control system for a tilt rotor UAV has been synthesized based on an incremental nonlinear ...
A flight control system for a tilt rotor UAV has been synthesized based on an incremental nonlinear ...
This paper describes a reconfiguring flight control algorithm for damaged aircraft based upon a modu...
Aircraft control normally relies on gain-scheduling of linear control laws, an approach that has bee...
A nonlinear flight controller is developed using dynamic inversion principles. The nonlinearities in...
A multi-input, multi-output reconfigurable flight control system design utilizing a robust controlle...
This paper describes the design, implementation and flight testing of flight control laws based on I...
A worldwide civil aviation accident survey for the period of 2002 till 2011, conducted by the CAA-UK...
A high fidelity aircraft simulation model, reconstructed using the Digital Flight Data Recorder (DFD...
This paper presents a flight control strategy based on nonlinear dynamic inversion. The approach pre...
