Add to ORKGA full authority helicopter control design based on differential flatness is presented. The concept of outer flatness is deployed for the design. The position dynamics and attitude dynamics are treated as the outer and inner systems respectively. The proposed design is based on an approximate model which is differentially flat, and then modified for the exact model. Given a desired trajectory in trim flight condition, the proposed control scheme is proved to result in global exponentially stability and convergence in the trajectory error.link_to_subscribed_fulltex
Due to the inherent instabilities and nonlinearities of rotorcraft dynamics, its changing properties...
This paper details a design study, based on eigenstructure assignment theory, to derive flight contr...
Pitch angle and forward velocity are decoupled via a static state feedback law for the case of helic...
This article deals with modelling and a flatness-based robust trajectory tracking scheme for a two d...
Abstract—The purpose of this communication is to investigate the usefulness of the differential flat...
International audienceThe purpose of this communication is to investigate the usefulness of the diff...
The problem of control law design for a small scale quadrotor helicopter enabling both speed and pi...
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
This article focuses on linear matrix inequality-based controller designs that can achieve stabiliza...
A simple model of the dynamics of a scale model autonomous helicopter is considered. A stabilising c...
The paper illustrates a robust control scheme for application to helicopters in vertical flight mode...
Over the last three decades, there has been increased interest in full authority (FA) control system...
International audienceThe design of a high-performance guidance and control system for a small-scale...
This paper present the results of attitude, velocity, heave and yaw controller design for UTM autono...
Abstract A nonlinear control is proposed for trajectory track-ing of a 6-DOF model-scaled helicopter...
Due to the inherent instabilities and nonlinearities of rotorcraft dynamics, its changing properties...
This paper details a design study, based on eigenstructure assignment theory, to derive flight contr...
Pitch angle and forward velocity are decoupled via a static state feedback law for the case of helic...
This article deals with modelling and a flatness-based robust trajectory tracking scheme for a two d...
Abstract—The purpose of this communication is to investigate the usefulness of the differential flat...
International audienceThe purpose of this communication is to investigate the usefulness of the diff...
The problem of control law design for a small scale quadrotor helicopter enabling both speed and pi...
This paper presents the results of attitude, velocity, heave and yaw controller design for an autono...
This article focuses on linear matrix inequality-based controller designs that can achieve stabiliza...
A simple model of the dynamics of a scale model autonomous helicopter is considered. A stabilising c...
The paper illustrates a robust control scheme for application to helicopters in vertical flight mode...
Over the last three decades, there has been increased interest in full authority (FA) control system...
International audienceThe design of a high-performance guidance and control system for a small-scale...
This paper present the results of attitude, velocity, heave and yaw controller design for UTM autono...
Abstract A nonlinear control is proposed for trajectory track-ing of a 6-DOF model-scaled helicopter...
Due to the inherent instabilities and nonlinearities of rotorcraft dynamics, its changing properties...
This paper details a design study, based on eigenstructure assignment theory, to derive flight contr...
Pitch angle and forward velocity are decoupled via a static state feedback law for the case of helic...