none3The use of magnetic torquers on satellites flying inclined Low Earth Orbits (LEO) arises challenging problems when dealing with control strategies: since the available torque is perpendicular to the local magnetic field, the Attitude Control System (ACS) is inherently underactuated if no other attitude effector is available. In this paper a rigorous proof of global asymptotic stability is derived for a control law that leads the satellite to a desired pure spin condition around a principal axis of inertia. A heuristic contribution is then added, inspired by quaternion feedback control and a previous geometric result obtained by the authors, which allows for pointing the spin axis along the normal to the orbital planenoneG. Avanzini; E....
Magnetic actuation utilizes the mechanic torque that is the result of interaction of the current in ...
none3A non-linear control law is presented which allows for attitude tracking of satellites in an u...
Recently there has been a great deal of excitement over the emergence of new techniques for the atti...
The use of magnetic torquers on satellites flying inclined Low Earth Orbits (LEO) arises challenging...
none3The use of magnetic actuators on Low Earth Orbiting spacecrafts represents an attractive soluti...
none3noAttitude regulation proves to be a challenging problem, when magnetic actuators alone are use...
The problem of attitude control can be expressed in terms of Euler axis/angle, where a nominal Euler...
The purpose of this paper is the design and the performance analysis of a control technique that all...
The aim of this paper is the analysis of simultaneous attitude control and momentum-wheel management...
The aim of this paper is the analysis of simultaneous attitude control and momentum-wheel management...
The paper investigates the dynamic behavior of a spacecraft when a single magnetic torque-rod is use...
A rigorous proof of global exponential stability is derived for a magnetic control law that drives a...
We revisit attitude stabilization for inertial pointing spacecraft endowed with magnetic actuators. ...
Attitude control of spacecraft in low Earth orbits can be achieved by exploiting the torques generat...
Spacecraft attitude stabilization based on active magnetic actuators represents a challenging proble...
Magnetic actuation utilizes the mechanic torque that is the result of interaction of the current in ...
none3A non-linear control law is presented which allows for attitude tracking of satellites in an u...
Recently there has been a great deal of excitement over the emergence of new techniques for the atti...
The use of magnetic torquers on satellites flying inclined Low Earth Orbits (LEO) arises challenging...
none3The use of magnetic actuators on Low Earth Orbiting spacecrafts represents an attractive soluti...
none3noAttitude regulation proves to be a challenging problem, when magnetic actuators alone are use...
The problem of attitude control can be expressed in terms of Euler axis/angle, where a nominal Euler...
The purpose of this paper is the design and the performance analysis of a control technique that all...
The aim of this paper is the analysis of simultaneous attitude control and momentum-wheel management...
The aim of this paper is the analysis of simultaneous attitude control and momentum-wheel management...
The paper investigates the dynamic behavior of a spacecraft when a single magnetic torque-rod is use...
A rigorous proof of global exponential stability is derived for a magnetic control law that drives a...
We revisit attitude stabilization for inertial pointing spacecraft endowed with magnetic actuators. ...
Attitude control of spacecraft in low Earth orbits can be achieved by exploiting the torques generat...
Spacecraft attitude stabilization based on active magnetic actuators represents a challenging proble...
Magnetic actuation utilizes the mechanic torque that is the result of interaction of the current in ...
none3A non-linear control law is presented which allows for attitude tracking of satellites in an u...
Recently there has been a great deal of excitement over the emergence of new techniques for the atti...