This paper presents the results of a spacecraft attitude control system based on magnetic actuators designed for low Earth orbits. The control system is designed by using a nonlinear control technique based on the approximating sequence of Riccati equations. The behavior of the satellite is discussed under perturbations and model uncertainties. Simulation results are presented when the control system is able to guide the spacecraft to the desired attitude in a variety of different conditions
Magnetic torquers are frequently adopted as primary actuators for the attitude control of small sate...
The active magnetic attitude control technique is a promising attitude control option for small sate...
This paper presents a model predictive control approach for regulating the attitude of magnetically ...
This paper presents the results of a spacecraft attitude control system based on magnetic actuators ...
A non-linear attitude control method for a satellite with magnetic torque rods using the state-depen...
This paper addresses magnetic attitude control of a satellite with one axis of inertia significantly...
Recently there has been a great deal of excitement over the emergence of new techniques for the atti...
The problem of attitude stabilization of a small satellite using magnetic actuators is considered, a...
Recently small satellite missions have gained considerable interest due to low-cost launch opportuni...
Spacecraft attitude stabilization based on active magnetic actuators represents a challenging proble...
We apply the forward-integration Riccati-based feedback controller developed in prior work to a magn...
Magnetic torquing of spacecraft has been an important mechanism for attitude control since the earli...
The work in this thesis investigates the development of novel attitude control laws for satellites w...
International audienceThe paper deals with the attitude active control of a Low Earth Orbit nanosate...
Magnetic torquers are frequently adopted as primary actuators for the attitude control of small sate...
The active magnetic attitude control technique is a promising attitude control option for small sate...
This paper presents a model predictive control approach for regulating the attitude of magnetically ...
This paper presents the results of a spacecraft attitude control system based on magnetic actuators ...
A non-linear attitude control method for a satellite with magnetic torque rods using the state-depen...
This paper addresses magnetic attitude control of a satellite with one axis of inertia significantly...
Recently there has been a great deal of excitement over the emergence of new techniques for the atti...
The problem of attitude stabilization of a small satellite using magnetic actuators is considered, a...
Recently small satellite missions have gained considerable interest due to low-cost launch opportuni...
Spacecraft attitude stabilization based on active magnetic actuators represents a challenging proble...
We apply the forward-integration Riccati-based feedback controller developed in prior work to a magn...
Magnetic torquing of spacecraft has been an important mechanism for attitude control since the earli...
The work in this thesis investigates the development of novel attitude control laws for satellites w...
International audienceThe paper deals with the attitude active control of a Low Earth Orbit nanosate...
Magnetic torquers are frequently adopted as primary actuators for the attitude control of small sate...
The active magnetic attitude control technique is a promising attitude control option for small sate...
This paper presents a model predictive control approach for regulating the attitude of magnetically ...