This paper presents a novel switching mode control scheme for the six-DOF hovering control of underactuated quadrotor unmanned aerial vehicles (QUAVs) with strong coupling. Through this paper, the full six states of the position and attitude of the QUAV can be controlled to the special target configuration in a fixed time. First, a continuously differentiable fixed time controller with a state constraint was designed for the position system. Second, a fixed-time integral sliding mode controller was designed for the attitude subsystem. Thirdly, a switching law was designed to switch the above two types of controllers a limited number of times during hovering control. Additionally, the crash problem is fully discussed during the entire contro...
Synthesis of the switching control law for a quadrotor autopilotThe paper deals with the problem of ...
Abstract—This paper presents an LQR-Based 6DOF control of an unmanned aerial vehicles (UAV), namely ...
The quadrotor aerial robot is a complex system and its dynamics involve nonlinearity, uncertainty, a...
In this paper, we present a model of a four rotor unmanned air vehicle (UAV) known as quadrotor airc...
International audience— This paper presents a particular class of a convertible micro aerial vehicle...
This paper presents the trajectory planning of an under-actuated quadcopter unmanned aerial vehicle....
This paper presents the design of a set of sliding mode controllers for a quadrotor vertical take-of...
In this paper vertical, transition and horizontal modes flight controllers of a tilt-wing quadrotor ...
Abstract — This paper gives the full dynamical model of a commercially available quadrotor rotorcraf...
International audienceThis paper presents recent advances in the project: development of a convertib...
We present our ongoing work on the development of a new quadrotor aerial vehicle which has a tilt-wi...
International audienceTilt rotor unmanned aerial vehicle (TRUAV) with ability of hovering and high-s...
This paper presents the control system design process of a novel tilt-rotor unmanned aerial vehicle ...
AbstractThis paper deduced the nonlinear dynamic model of a quadrotor aerial robot, which was a VTOL...
This paper concentrates on the flight control of a novel tiltrotor aircraft with fixed wings. This k...
Synthesis of the switching control law for a quadrotor autopilotThe paper deals with the problem of ...
Abstract—This paper presents an LQR-Based 6DOF control of an unmanned aerial vehicles (UAV), namely ...
The quadrotor aerial robot is a complex system and its dynamics involve nonlinearity, uncertainty, a...
In this paper, we present a model of a four rotor unmanned air vehicle (UAV) known as quadrotor airc...
International audience— This paper presents a particular class of a convertible micro aerial vehicle...
This paper presents the trajectory planning of an under-actuated quadcopter unmanned aerial vehicle....
This paper presents the design of a set of sliding mode controllers for a quadrotor vertical take-of...
In this paper vertical, transition and horizontal modes flight controllers of a tilt-wing quadrotor ...
Abstract — This paper gives the full dynamical model of a commercially available quadrotor rotorcraf...
International audienceThis paper presents recent advances in the project: development of a convertib...
We present our ongoing work on the development of a new quadrotor aerial vehicle which has a tilt-wi...
International audienceTilt rotor unmanned aerial vehicle (TRUAV) with ability of hovering and high-s...
This paper presents the control system design process of a novel tilt-rotor unmanned aerial vehicle ...
AbstractThis paper deduced the nonlinear dynamic model of a quadrotor aerial robot, which was a VTOL...
This paper concentrates on the flight control of a novel tiltrotor aircraft with fixed wings. This k...
Synthesis of the switching control law for a quadrotor autopilotThe paper deals with the problem of ...
Abstract—This paper presents an LQR-Based 6DOF control of an unmanned aerial vehicles (UAV), namely ...
The quadrotor aerial robot is a complex system and its dynamics involve nonlinearity, uncertainty, a...