The paper starts by presenting the model of the star-shaped octorotor. LQR control is chosen to stabilize the attitude and altitude of the vehicle. Waypoint navigation is also implemented. Numerical simulations demonstrate the effectiveness of the control strategy under nominal conditions. However, in practice mass related uncertainties can occur. In this case the results are unsatisfactory. Thus the improvement of the applied LQR control strategy is proposed. It is shown that after adding integral action to the altitude controller the issue is solved
International audienceIn the context of radar applications using small UAVs (Unmanned Aerial Vehicle...
This paper analyses the problem of the autonomous control of a satellite in Low Earth Orbit (LEO) us...
Regarding multiple spacecraft formation flying, the observation has been made that control thrust ne...
A controller is designed for hexacopter platform to achieve accurate tracking of altitude and attitu...
The findings of this paper are focused on the dynamics and control of a quadcopter using a modified ...
The paper focuses on developing, tuning, and testing a controller for a two-stage finless rocket dur...
This paper presents the attitude behaviour of quad-rotor by using a LQR controller. The performance ...
International audienceAs part of a research and educational project, this paper proposes an H∞ contr...
The longitudinal altitude holding control system (LAHCS) of wing in surface effect (WiSE) vehicle ha...
The ability of the aircraft to trace the waypoint trajectory is a major requirement for the completi...
This dissertation addresses Thrust Vector Control (TVC) design techniques for small launch vehicles ...
AbstractThe focus of this paper is on the autopilot control loop design of fixed wing Micro Aerial V...
Abstract—This paper presents an LQR-Based 6DOF control of an unmanned aerial vehicles (UAV), namely ...
Quadrotor is an unmanned aircraft which has vertical take-off and landing (VTOL) capability. However...
From the beginning of the satellite usage, the momentum created by its movements has b...
International audienceIn the context of radar applications using small UAVs (Unmanned Aerial Vehicle...
This paper analyses the problem of the autonomous control of a satellite in Low Earth Orbit (LEO) us...
Regarding multiple spacecraft formation flying, the observation has been made that control thrust ne...
A controller is designed for hexacopter platform to achieve accurate tracking of altitude and attitu...
The findings of this paper are focused on the dynamics and control of a quadcopter using a modified ...
The paper focuses on developing, tuning, and testing a controller for a two-stage finless rocket dur...
This paper presents the attitude behaviour of quad-rotor by using a LQR controller. The performance ...
International audienceAs part of a research and educational project, this paper proposes an H∞ contr...
The longitudinal altitude holding control system (LAHCS) of wing in surface effect (WiSE) vehicle ha...
The ability of the aircraft to trace the waypoint trajectory is a major requirement for the completi...
This dissertation addresses Thrust Vector Control (TVC) design techniques for small launch vehicles ...
AbstractThe focus of this paper is on the autopilot control loop design of fixed wing Micro Aerial V...
Abstract—This paper presents an LQR-Based 6DOF control of an unmanned aerial vehicles (UAV), namely ...
Quadrotor is an unmanned aircraft which has vertical take-off and landing (VTOL) capability. However...
From the beginning of the satellite usage, the momentum created by its movements has b...
International audienceIn the context of radar applications using small UAVs (Unmanned Aerial Vehicle...
This paper analyses the problem of the autonomous control of a satellite in Low Earth Orbit (LEO) us...
Regarding multiple spacecraft formation flying, the observation has been made that control thrust ne...