Spacecraft and interplanetary probes orbiting at high altitudes experience forces due to solar radiation pressure, which can be used for maneuvering. The question of large angle pitch attitude maneuvers of satellites using solar radiation torque is considered. For pitch axis maneuver, two highly reflective control surfaces are used to generate radiation moment. The solar radiation moment is a complex nonlinear function of the attitude and parameters of the satellite, the orbital parameters, and the deflection angles of the reflective control surfaces. It is assumed that the parameters of the satellite model are unknown. Based on a backstepping design technique, a nonlinear adaptive control law is derived for the control of the pitch angle. ...
Satellites in orbit are expected to maintain a preset attitude either pointing towards Earth (in cas...
This paper presents the design of a higher-order sliding-mode control system for the three-axis atti...
The development of a new robust finite-time control system, for the control of satellites in ellipti...
Spacecraft and interplanetary probes orbiting at high altitudes experience forces due to solar radia...
Spacecraft and interplanetary probes orbiting at high altitudes experience forces due to solar radia...
The question of large angle pitch attitude maneuver of satellites using solar radiation pressure is ...
The article presents a new adaptive controller for attitude control of satellites using solar radiat...
The question of large angle pitch attitude maneuver of satellites using solar radiation pressure is ...
The paper presents a robust nonlinear output feedback control system for the attitude control of sat...
Based on the adaptive control theory, a novel three-axis attitude control system for an axisymmetri...
A model reference adaptive control law is presented for large angle rotational maneuvers of spacecra...
The paper presents a novel noncertainty-equivalent adaptive (NCEA) control system for the pitch atti...
Abstract: The paper proposes the use of solar radiation pressure for satellite attitude control usin...
Solar radiation pressure effects are exploited on-board satellites since about four decades. Control...
Satellites in orbit are expected to maintain a preset attitude either pointing towards Earth (in cas...
This paper presents the design of a higher-order sliding-mode control system for the three-axis atti...
The development of a new robust finite-time control system, for the control of satellites in ellipti...
Spacecraft and interplanetary probes orbiting at high altitudes experience forces due to solar radia...
Spacecraft and interplanetary probes orbiting at high altitudes experience forces due to solar radia...
The question of large angle pitch attitude maneuver of satellites using solar radiation pressure is ...
The article presents a new adaptive controller for attitude control of satellites using solar radiat...
The question of large angle pitch attitude maneuver of satellites using solar radiation pressure is ...
The paper presents a robust nonlinear output feedback control system for the attitude control of sat...
Based on the adaptive control theory, a novel three-axis attitude control system for an axisymmetri...
A model reference adaptive control law is presented for large angle rotational maneuvers of spacecra...
The paper presents a novel noncertainty-equivalent adaptive (NCEA) control system for the pitch atti...
Abstract: The paper proposes the use of solar radiation pressure for satellite attitude control usin...
Solar radiation pressure effects are exploited on-board satellites since about four decades. Control...
Satellites in orbit are expected to maintain a preset attitude either pointing towards Earth (in cas...
This paper presents the design of a higher-order sliding-mode control system for the three-axis atti...
The development of a new robust finite-time control system, for the control of satellites in ellipti...