This paper presents a review of recent results in the field of dual quaternion based motion control. In addition, we derive two control laws for trajectory tracking control of a fully actuated rigid-body based on the resemblance of dual quaternion kinematics and dynamics to the quaternion based rotational kinematics and dynamics. A velocity error sliding surface and an integrator backstepping controller is derived and uniform asymptotic stability is shown, and the former is subsequently extended to the problem of trajectory tracking of the underactuated quadrotor platform using the hand-position technique. Numerical simulations demonstrate the theoretical results
International audienceBased on the dual-quaternion description, a smooth six-degree-of-freedom obser...
This paper focuses on finding a dual quaternion solution to attitude and position control for multip...
A hybrid feedback control scheme is proposed for stabilization of rigid body dynamics (pose and velo...
In this paper dual-quaternions are used to model a fully actuated rigid-body. A backstepping-control...
This paper presents results on kinematic controllers for the stabilization of rigid body displacemen...
We address the problem of state feedback trajectory tracking of the underactuated quadrotor platform...
Copyright © 2013 IEEEPresented at European Control Conference (ECC), July 17-19, 2013, Zurich, Switz...
The adoption of the dual quaternion formalism to represent the pose (position and orientation) of a ...
This paper addresses the problem of trajectory tracking for underactuated quadrotors. A quaternion b...
We address the trajectory tracking problem for a fully actuated rigid-body with unknown mass and ine...
Maneuver regulation emerges as an optimal strategy to perform robust path following in presence of d...
Abstract — We propose in this paper a new concept of unified position/orientation control of robot m...
This paper provides a unified solution for the attitude and position tracking problem of a rigid bod...
Presented at American Control Conference, Washington, DC, June 17-19, 2013.In this paper, we suggest...
We address the problem of state feedback trajectory tracking of the composite quadrotor-gimbal platf...
International audienceBased on the dual-quaternion description, a smooth six-degree-of-freedom obser...
This paper focuses on finding a dual quaternion solution to attitude and position control for multip...
A hybrid feedback control scheme is proposed for stabilization of rigid body dynamics (pose and velo...
In this paper dual-quaternions are used to model a fully actuated rigid-body. A backstepping-control...
This paper presents results on kinematic controllers for the stabilization of rigid body displacemen...
We address the problem of state feedback trajectory tracking of the underactuated quadrotor platform...
Copyright © 2013 IEEEPresented at European Control Conference (ECC), July 17-19, 2013, Zurich, Switz...
The adoption of the dual quaternion formalism to represent the pose (position and orientation) of a ...
This paper addresses the problem of trajectory tracking for underactuated quadrotors. A quaternion b...
We address the trajectory tracking problem for a fully actuated rigid-body with unknown mass and ine...
Maneuver regulation emerges as an optimal strategy to perform robust path following in presence of d...
Abstract — We propose in this paper a new concept of unified position/orientation control of robot m...
This paper provides a unified solution for the attitude and position tracking problem of a rigid bod...
Presented at American Control Conference, Washington, DC, June 17-19, 2013.In this paper, we suggest...
We address the problem of state feedback trajectory tracking of the composite quadrotor-gimbal platf...
International audienceBased on the dual-quaternion description, a smooth six-degree-of-freedom obser...
This paper focuses on finding a dual quaternion solution to attitude and position control for multip...
A hybrid feedback control scheme is proposed for stabilization of rigid body dynamics (pose and velo...