In this paper a continuous attitude tracking control law is derived directly on the rotation group SO(3). The proposed control law is shown to reduce the closed-loop attitude dynamics to a linear oscillator description of the eigen-axis error, without the need for a small angle approximation. The main practical benefit of this is that the gains can be easily tuned to drive this eigen-axis error to zero exponentially fast and with a damped response without oscillations. The approach uses geodesic error metrics on the rotation group and the angular velocity to construct a Lyapunov function. The time-derivative of this Lyapunov function is control dependent and a continuous control is selected to guarantee asymptotic tracking of the reference ...
In this paper the problem of attitude tracking control for a rigid spacecraft is addressed. It is as...
The motion control problem for a class of mechanical systems is addressed. The system configuration ...
This paper addresses the guidance and tracking problem for a rigid-spacecraft using two reaction whe...
In this paper a continuous attitude tracking control law is derived directly on the rotation group S...
This paper presents a new quaternion-based attitude tracking controller. A general Lyapunov function...
We derive a continuous, nonlinear control law for spacecraft attitude tracking of arbitrary continuo...
Abstract — This paper provides new results for a tracking control of the attitude dynamics of a rigi...
Abstract — Four types of attitude control systems are devel-oped for the rotational dynamics of a ri...
Various control design techniques are model dependent. They typically require knowledge of the inert...
The operation and accomplishment of a satellite's mission depend on its capacity to control its atti...
Abstract — Four types of attitude control systems are devel-oped for the rotational dynamics of a ri...
International audienceThis paper considers the attitude control problem of a generic rotating 3 degr...
In this paper the problem of attitude tracking control for a rigid spacecraft is addressed. It is as...
Two finite-time controllers without unwinding for the attitude tracking control of the spacecraft ar...
In this paper the problem of attitude tracking control for a rigid spacecraft is addressed. It is as...
The motion control problem for a class of mechanical systems is addressed. The system configuration ...
This paper addresses the guidance and tracking problem for a rigid-spacecraft using two reaction whe...
In this paper a continuous attitude tracking control law is derived directly on the rotation group S...
This paper presents a new quaternion-based attitude tracking controller. A general Lyapunov function...
We derive a continuous, nonlinear control law for spacecraft attitude tracking of arbitrary continuo...
Abstract — This paper provides new results for a tracking control of the attitude dynamics of a rigi...
Abstract — Four types of attitude control systems are devel-oped for the rotational dynamics of a ri...
Various control design techniques are model dependent. They typically require knowledge of the inert...
The operation and accomplishment of a satellite's mission depend on its capacity to control its atti...
Abstract — Four types of attitude control systems are devel-oped for the rotational dynamics of a ri...
International audienceThis paper considers the attitude control problem of a generic rotating 3 degr...
In this paper the problem of attitude tracking control for a rigid spacecraft is addressed. It is as...
Two finite-time controllers without unwinding for the attitude tracking control of the spacecraft ar...
In this paper the problem of attitude tracking control for a rigid spacecraft is addressed. It is as...
The motion control problem for a class of mechanical systems is addressed. The system configuration ...
This paper addresses the guidance and tracking problem for a rigid-spacecraft using two reaction whe...