The question of large angle pitch attitude maneuver of satellites using solar radiation pressure is considered. For pitch axis maneuver, two highly reflective control surfaces are used to generate radiation moment. Based on dynamic feedback linearization, a nonlinear control law is derived for large pitch attitude control. In the closed-loop system, the response characteristics of the pitch angle are governed by a fourth order linear differential equation. Robustness of control system is obtained by the integral error feedback. Simulation results are presented to show that in the closed-loop system, attitude control of the satellite is accomplished in spite of the parameter uncertainty in the syste
Based on the adaptive control theory, a novel three-axis attitude control system for an axisymmetri...
The robust optimal sun-pointing control strategy for a large geostationary solar power satellite (SP...
Attitude control law design for spacecraft large angle maneuvers is investigated in this paper. The ...
The question of large angle pitch attitude maneuver of satellites using solar radiation pressure is ...
The question of large angle pitch attitude maneuver of satellites using solar radiation pressure is ...
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 paper presents a robust nonlinear output feedback control system for the attitude control of sat...
The article presents a new adaptive controller for attitude control of satellites using solar radiat...
International audienceThis study is dedicated to the problem of non linear attitude control for a ri...
Abstract: The paper proposes the use of solar radiation pressure for satellite attitude control usin...
The development of a new robust finite-time control system, for the control of satellites in ellipti...
Effectiveness of solar radiation pressure in the three-axis attitude control of present day and next...
This paper presents the design of a higher-order sliding-mode control system for the three-axis atti...
Based on the adaptive control theory, a novel three-axis attitude control system for an axisymmetri...
The robust optimal sun-pointing control strategy for a large geostationary solar power satellite (SP...
Attitude control law design for spacecraft large angle maneuvers is investigated in this paper. The ...
The question of large angle pitch attitude maneuver of satellites using solar radiation pressure is ...
The question of large angle pitch attitude maneuver of satellites using solar radiation pressure is ...
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 paper presents a robust nonlinear output feedback control system for the attitude control of sat...
The article presents a new adaptive controller for attitude control of satellites using solar radiat...
International audienceThis study is dedicated to the problem of non linear attitude control for a ri...
Abstract: The paper proposes the use of solar radiation pressure for satellite attitude control usin...
The development of a new robust finite-time control system, for the control of satellites in ellipti...
Effectiveness of solar radiation pressure in the three-axis attitude control of present day and next...
This paper presents the design of a higher-order sliding-mode control system for the three-axis atti...
Based on the adaptive control theory, a novel three-axis attitude control system for an axisymmetri...
The robust optimal sun-pointing control strategy for a large geostationary solar power satellite (SP...
Attitude control law design for spacecraft large angle maneuvers is investigated in this paper. The ...