This paper proposes a novel nonlinear feedback control strategy for velocity and attitude control of fixed wing aircrafts. The key feature of the control design strategy is the introduction of a virtual control input in order to deal with the underactuation property of such vehicles and to indirectly control the orientation of the aircraft. As such, the proposed strategy consists of three control loops each realizing a specific task. Simulations are carried out by using the jetstream-3102 aircraft in a real-time virtual Simulation Platform for the development of Aircraft Control Systems (SP-ACS). The proposed approach of control is model-based for which we have introduces an identification part before test and validation. We use the Total L...
In this paper, we present a piloting law based on the adaptive differentiators via high order slidin...
The project simulates dynamics of an aircraft subjected to an external environment that has a direct...
This paper describes the complete control strategy developed for EAGLE, a vertical-takeoff, vertical...
This paper proposes a novel nonlinear feedback control strategy for velocity and attitude control of...
Determining suitable controllers for the process of evaluating dynamic per-formance of multiple vers...
The question of inertial trajectory control of aircraft in the three-dimensional space is discussed....
Considerable growth in the number of passengers and cargo transported by air is predicted. Moreover,...
Methods from linear control theory have a considerable share in the state-of-the-art toolbox for con...
This paper presents the design and implementation of incremental backstepping (IBS) flight control l...
This presentation aims at giving an overview of recent activities in the Design and Flight Testing o...
Flight control systems enable the improvement of natural flying qualities and airframe performance o...
Abstract—Without horizontal and vertical stabilizers, a combat flying wing with high aspect-ratio ha...
For transport aircraft, the primary control objective for an autopilot system engaged during approac...
International audienceFor transport aircraft, the primary control objective for an autopilot system ...
Aircraft lifespan can be extended by upgrading and modernizing the electrical subsystems and instrum...
In this paper, we present a piloting law based on the adaptive differentiators via high order slidin...
The project simulates dynamics of an aircraft subjected to an external environment that has a direct...
This paper describes the complete control strategy developed for EAGLE, a vertical-takeoff, vertical...
This paper proposes a novel nonlinear feedback control strategy for velocity and attitude control of...
Determining suitable controllers for the process of evaluating dynamic per-formance of multiple vers...
The question of inertial trajectory control of aircraft in the three-dimensional space is discussed....
Considerable growth in the number of passengers and cargo transported by air is predicted. Moreover,...
Methods from linear control theory have a considerable share in the state-of-the-art toolbox for con...
This paper presents the design and implementation of incremental backstepping (IBS) flight control l...
This presentation aims at giving an overview of recent activities in the Design and Flight Testing o...
Flight control systems enable the improvement of natural flying qualities and airframe performance o...
Abstract—Without horizontal and vertical stabilizers, a combat flying wing with high aspect-ratio ha...
For transport aircraft, the primary control objective for an autopilot system engaged during approac...
International audienceFor transport aircraft, the primary control objective for an autopilot system ...
Aircraft lifespan can be extended by upgrading and modernizing the electrical subsystems and instrum...
In this paper, we present a piloting law based on the adaptive differentiators via high order slidin...
The project simulates dynamics of an aircraft subjected to an external environment that has a direct...
This paper describes the complete control strategy developed for EAGLE, a vertical-takeoff, vertical...