Add to ORKGThis paper details a design study, based on eigenstructure assignment theory, to derive flight control laws for a BO-105 helicopter model to meet the ADS-33E-PRF handling qualities requirements in the pitch and roll axes. Both state variable and output feedback control laws are derived and their relative merits discussed. Minimal order functional observers are used to reconstruct the state variable feedback laws. In all cases stability/performance robustness of the design, using higher order truth models and realistic perturbation models, is demonstrated
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
This paper present the results of attitude, velocity, heave and yaw controller design for UTM autono...
This paper details a design study, based on eigenstructure assignment theory, to derive flight contr...
This report details a design study based on eigenstructure assignment theory, to derive flight contr...
This report details a design study based on eigenstructure assignment theory, to derive flight contr...
The requirements of active control technology, together with increased operational demands, presents...
This thesis is concerned with the application of eigenstructure assignment methods to helicopter fli...
This thesis is concerned with the application of eigenstructure assignment methods to helicopter fli...
This work reports an examination of the Eigenstructure Assignment control law design technique, and ...
Purpose – This paper aims to present the design of a stability augmentation system (SAS) in the long...
Purpose – This paper aims to present the design of a stability augmentation system (SAS) in the long...
Flight control law design for actively controlled rotorcraft presents difficult problems due to the ...
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
Helicopters are complex, coupled dynamic systems with unstable behavior. Countless studies have show...
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
This paper present the results of attitude, velocity, heave and yaw controller design for UTM autono...
This paper details a design study, based on eigenstructure assignment theory, to derive flight contr...
This report details a design study based on eigenstructure assignment theory, to derive flight contr...
This report details a design study based on eigenstructure assignment theory, to derive flight contr...
The requirements of active control technology, together with increased operational demands, presents...
This thesis is concerned with the application of eigenstructure assignment methods to helicopter fli...
This thesis is concerned with the application of eigenstructure assignment methods to helicopter fli...
This work reports an examination of the Eigenstructure Assignment control law design technique, and ...
Purpose – This paper aims to present the design of a stability augmentation system (SAS) in the long...
Purpose – This paper aims to present the design of a stability augmentation system (SAS) in the long...
Flight control law design for actively controlled rotorcraft presents difficult problems due to the ...
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
Helicopters are complex, coupled dynamic systems with unstable behavior. Countless studies have show...
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
This paper present the results of attitude, velocity, heave and yaw controller design for UTM autono...