This work introduces a real time suboptimal control algorithm for six-degree-of-freedom spacecraft maneuvering based on a State-Dependent-Algebraic-Riccati-Equation (SDARE) approach and real-time linearization of the equations of motion. The control strategy is sub-optimal since the gains of the linear quadratic regulator (LQR) are re-computed at each sample time. The cost function of the proposed controller has been compared with the one obtained via a general purpose optimal control software, showing, on average, an increase in control effort of approximately 15%, compensated by real-time implementability. Lastly, the paper presents experimental tests on a hardware-in-the-loop six-degree-of-freedom spacecraft simulator, designed for testi...
In this paper, an overview of the state-dependent Riccati equation (SDRE) control technique is propo...
An innovative dynamics and control algorithm is developed for a dual-nanosatellite formation flying ...
Precision Formation Flying is an enabling technology for a variety of proposed space-based observato...
This work introduces a real time suboptimal control algorithm for six-degree-of-freedom spacecraft m...
AbstractThis work introduces a real time suboptimal control algorithm for six-degree-of-freedom spac...
This paper analyses the problem of the autonomous control of a satellite in Low Earth Orbit (LEO) us...
This paper analyses the problem of the autonomous control of a satellite in Low Earth Orbit (LEO) u...
A new optimal control approach, Theta-D technique, is employed to control the position and altitude ...
This paper presents the design and study of cross product control, Linear-Quadratic Regulator (LQR)o...
This thesis presents a flight control law for the ascent phase of flight of the next generation of r...
This thesis explores concepts for a closed-loop optimal control implementation of minimum-time attit...
This paper investigates a new strategy for geostationary satellite attitude control using Linear Qua...
Regarding multiple spacecraft formation flying, the observation has been made that control thrust ne...
A novel testbed is introduced to examine the problem of multiple spacecraft interacting in close pro...
Linear-Quadratic-Gaussian optimal control theory provides a uni-fied approach to controller synthesi...
In this paper, an overview of the state-dependent Riccati equation (SDRE) control technique is propo...
An innovative dynamics and control algorithm is developed for a dual-nanosatellite formation flying ...
Precision Formation Flying is an enabling technology for a variety of proposed space-based observato...
This work introduces a real time suboptimal control algorithm for six-degree-of-freedom spacecraft m...
AbstractThis work introduces a real time suboptimal control algorithm for six-degree-of-freedom spac...
This paper analyses the problem of the autonomous control of a satellite in Low Earth Orbit (LEO) us...
This paper analyses the problem of the autonomous control of a satellite in Low Earth Orbit (LEO) u...
A new optimal control approach, Theta-D technique, is employed to control the position and altitude ...
This paper presents the design and study of cross product control, Linear-Quadratic Regulator (LQR)o...
This thesis presents a flight control law for the ascent phase of flight of the next generation of r...
This thesis explores concepts for a closed-loop optimal control implementation of minimum-time attit...
This paper investigates a new strategy for geostationary satellite attitude control using Linear Qua...
Regarding multiple spacecraft formation flying, the observation has been made that control thrust ne...
A novel testbed is introduced to examine the problem of multiple spacecraft interacting in close pro...
Linear-Quadratic-Gaussian optimal control theory provides a uni-fied approach to controller synthesi...
In this paper, an overview of the state-dependent Riccati equation (SDRE) control technique is propo...
An innovative dynamics and control algorithm is developed for a dual-nanosatellite formation flying ...
Precision Formation Flying is an enabling technology for a variety of proposed space-based observato...