This work investigates the design parameters and their consequences in the control of a helicopter rotor combined with a pair of fixed wings. This hybrid vehicle has a light and aerodynamically efficient rotor with a large range of pitch angles to enable both hover and forward flight. Because of the light stiff rotor and heavy wings, the hybrid vehicle exhibits couplings between the roll and pitch axes during hover flight. The rotor-wing interaction depends on a lot of parameters. In this article, we utilize a simplified theoretic model and simulations in order to gain insight in the effect of these parameters on the vehicle dynamics. Finally, a controller is designed that compensates undesired coupling between pitch and roll.Control & Simu...
This paper presents a novel method to attenuate large horizontal wind disturbance for a small-scale ...
This paper proposes a simple flying rotor prototype composed of two small airplanes attached to each...
This paper gathers the design and implementation of the control system that allows an unmanned Flyin...
This work investigates the design parameters and their consequences in the control of a helicopter r...
This work investigates the design parameters and consequences in the control of a helicopter rotor c...
Copyright © 2015 B.Venkata Sai Anoop. This is an open access article distributed under the Creative ...
International audienceIn this paper, the mathematical modeling of ahybrid aerial vehicle is presente...
In this paper, the robust hybrid control design is investigated for a small scale helicopter flying ...
Designing autonomous flight control system for a mini scale helicopter is very challenging due to th...
In this paper, we propose a hybrid modelling and control design scheme for an unmanned helicopter. T...
<p>This dissertation investigates the optimal aerodynamic performance and design of conventional and...
The objective of this work was to develop a variety of control systems for a Stop-Rotor Unmanned Aer...
Dynamics of miniature unmanned helicopter are considered nonlinear and mutually coupled; therefore d...
This paper investigates by an energetic approach possible new configurations of aircrafts, which can...
In this study, we have proposed an unconventional UAV design. We aimed heavy lifting in an efficient...
This paper presents a novel method to attenuate large horizontal wind disturbance for a small-scale ...
This paper proposes a simple flying rotor prototype composed of two small airplanes attached to each...
This paper gathers the design and implementation of the control system that allows an unmanned Flyin...
This work investigates the design parameters and their consequences in the control of a helicopter r...
This work investigates the design parameters and consequences in the control of a helicopter rotor c...
Copyright © 2015 B.Venkata Sai Anoop. This is an open access article distributed under the Creative ...
International audienceIn this paper, the mathematical modeling of ahybrid aerial vehicle is presente...
In this paper, the robust hybrid control design is investigated for a small scale helicopter flying ...
Designing autonomous flight control system for a mini scale helicopter is very challenging due to th...
In this paper, we propose a hybrid modelling and control design scheme for an unmanned helicopter. T...
<p>This dissertation investigates the optimal aerodynamic performance and design of conventional and...
The objective of this work was to develop a variety of control systems for a Stop-Rotor Unmanned Aer...
Dynamics of miniature unmanned helicopter are considered nonlinear and mutually coupled; therefore d...
This paper investigates by an energetic approach possible new configurations of aircrafts, which can...
In this study, we have proposed an unconventional UAV design. We aimed heavy lifting in an efficient...
This paper presents a novel method to attenuate large horizontal wind disturbance for a small-scale ...
This paper proposes a simple flying rotor prototype composed of two small airplanes attached to each...
This paper gathers the design and implementation of the control system that allows an unmanned Flyin...