Helicopter flight control law design including rotor state feedback is considered and an approach based on structured H∞ control, capable of guaranteeing stability and performance robustness, is proposed. The framework also encompasses fault tolerance with respect to failures of the rotor state sensors. Simulation results comparing the proposed approach to results from the literature are presented and discussed
This paper details a design study, based on eigenstructure assignment theory, to derive flight contr...
In this paper, a fault tolerant control system for a quadrotor helicopter is developed. Fault tolera...
This thesis presents the results of a study into the use of Hꝏ-optimization for the design of feedba...
Helicopter flight control law design including rotor state feedback is considered and an approach ba...
Helicopter flight control law design including rotor state feedback (RSF) is considered. A mathemati...
An approach to rotor state feedback attitude control aimed at nominal stability, closed-loop perform...
This paper presents a robust adaptive H∞ strategy to solve the attitude of the quad-rotor heli...
This thesis presents one of the first applications of H∞-optimization to the design of controllers f...
Increased safety and reduced workload are two main goals for helicopter pilot assistance systems. Fe...
The application of active control to helicopters promises to improve flight handling qualities and t...
Recent results are presented on the modelling, control and identification of helicopters carried out...
International audienceThis paper addresses the issue of flight safety andreliability of unmanned mul...
Helicopter missions place strong demands on the precise control characteristics of aircraft, particu...
This thesis describes the design and flight testing of advanced robust multivariable control laws fo...
Application areas of Unmanned Aerial Vehicles (UAVs) are widened signi cantly over the last decade. ...
This paper details a design study, based on eigenstructure assignment theory, to derive flight contr...
In this paper, a fault tolerant control system for a quadrotor helicopter is developed. Fault tolera...
This thesis presents the results of a study into the use of Hꝏ-optimization for the design of feedba...
Helicopter flight control law design including rotor state feedback is considered and an approach ba...
Helicopter flight control law design including rotor state feedback (RSF) is considered. A mathemati...
An approach to rotor state feedback attitude control aimed at nominal stability, closed-loop perform...
This paper presents a robust adaptive H∞ strategy to solve the attitude of the quad-rotor heli...
This thesis presents one of the first applications of H∞-optimization to the design of controllers f...
Increased safety and reduced workload are two main goals for helicopter pilot assistance systems. Fe...
The application of active control to helicopters promises to improve flight handling qualities and t...
Recent results are presented on the modelling, control and identification of helicopters carried out...
International audienceThis paper addresses the issue of flight safety andreliability of unmanned mul...
Helicopter missions place strong demands on the precise control characteristics of aircraft, particu...
This thesis describes the design and flight testing of advanced robust multivariable control laws fo...
Application areas of Unmanned Aerial Vehicles (UAVs) are widened signi cantly over the last decade. ...
This paper details a design study, based on eigenstructure assignment theory, to derive flight contr...
In this paper, a fault tolerant control system for a quadrotor helicopter is developed. Fault tolera...
This thesis presents the results of a study into the use of Hꝏ-optimization for the design of feedba...