The challenging problem of controlling the attitude of satellites subject to actuator failures has been the subject of increased attention in recent years. The problem of controlling the attitude of a satellite on all three axes with two reaction wheels is addressed in this paper. This system is controllable in a zero-momentum mode. Three-axis attitude stability is proven by imposing a singular quaternion feedback law to the angular velocity trajectories.Two approaches are proposed and compared to achieve three-axis control: The first one does not require angular velocity measurements and is based on the assumption of a perfect zero momentum, while the second approach consists of tracking the desired angular velocity trajectories. The full-...
The paper deals with attitude dynamics of an underactuated spacecraft, proposing a technique for ai...
The paper deals with attitude dynamics of an underactuated spacecraft, proposing a technique for aim...
Actuator failures onboard spacecraft often lead to unsatisfied control performances or even the lose...
The challenging problem of controlling the attitude of satellites subject to actuator failures has b...
Actuator failures onboard satellites have caused severe and even disastrous consequences on several ...
Failure of mechanical controllers onboard a satellite is a well-known phenomenon that has already be...
This work addresses the attitude control of a satellite by applying MIMO quantitative feedback appro...
The purpose of this paper is the design and the performance analysis of a control technique that all...
This paper addresses the guidance and tracking problem for a rigid-spacecraft using two reaction whe...
: We provide stabilizing and tracking feedback control laws for the kinematic system of an underactu...
Various control design techniques are model dependent. They typically require knowledge of the inert...
In this paper two nonlinear control techniques are developed and compared for the satellite attitude...
The problem of aiming a generic body-fixed axis along an inertially fixed direction is dealt with fo...
In this thesis novel feedback attitude control algorithms and attitude estimation algorithms are dev...
The study examines the control algorithm of a three-dimensional attitude and position of a free-floa...
The paper deals with attitude dynamics of an underactuated spacecraft, proposing a technique for ai...
The paper deals with attitude dynamics of an underactuated spacecraft, proposing a technique for aim...
Actuator failures onboard spacecraft often lead to unsatisfied control performances or even the lose...
The challenging problem of controlling the attitude of satellites subject to actuator failures has b...
Actuator failures onboard satellites have caused severe and even disastrous consequences on several ...
Failure of mechanical controllers onboard a satellite is a well-known phenomenon that has already be...
This work addresses the attitude control of a satellite by applying MIMO quantitative feedback appro...
The purpose of this paper is the design and the performance analysis of a control technique that all...
This paper addresses the guidance and tracking problem for a rigid-spacecraft using two reaction whe...
: We provide stabilizing and tracking feedback control laws for the kinematic system of an underactu...
Various control design techniques are model dependent. They typically require knowledge of the inert...
In this paper two nonlinear control techniques are developed and compared for the satellite attitude...
The problem of aiming a generic body-fixed axis along an inertially fixed direction is dealt with fo...
In this thesis novel feedback attitude control algorithms and attitude estimation algorithms are dev...
The study examines the control algorithm of a three-dimensional attitude and position of a free-floa...
The paper deals with attitude dynamics of an underactuated spacecraft, proposing a technique for ai...
The paper deals with attitude dynamics of an underactuated spacecraft, proposing a technique for aim...
Actuator failures onboard spacecraft often lead to unsatisfied control performances or even the lose...