This paper addresses the problems of vibration reduction and attitude tracking for a flexible spacecraft subject to external disturbances and uncertainties. Based on Hamilton’s principle, flexible spacecraft is modelled by a coupled nonlinear partial differential equation with ordinary differential equations. Adaptive boundary control scheme is adopted to stabilize the vibration displacement of flexible appendage into a small neighbourhood of original position and simultaneously maintain attitude angle within the desired angle region. Two disturbance adaptive laws are constructed to attenuate the effect of unknown external disturbances. The well posedness of the controlled system is proven by using the semigroup theory. The proposed adaptiv...
A flexible spacecraft is a kind of complex systems consisting of rigid bodies and flexible appendage...
To achieve the high accuracy attitude stabilization, by utilizing finite-time control technique, a n...
The general objective of this Ph.D. thesis is to study the dynamics and control of rigid and flexibl...
A robust adaptive constrained control scheme is proposed for flexible spacecraft attitude maneuver a...
A design of a robust attitude control system for flexible spacecraft is proposed in this paper, sinc...
Abstract: This paper is concerned with the development of a control system for rotational maneuver a...
In this paper, a new approach for vibration control of flexible spacecraft during attitude maneuveri...
Abstract — The aim is to develop vibration control of flexible spacecraft by adaptive controller. A ...
The attitude control and disturbance rejection problems are investigated in this paper for a flexibl...
The aim is to develop vibration control of flexible spacecraft by adaptive controller. A case study ...
summary:This paper presents a novel robust optimal control approach for attitude stabilization of a ...
A new adaptive control system for the rotational maneuver and vibration suppression of an orbiting s...
The paper presents the design of a new simple adaptive system for the rotational maneuver and vibrat...
The development of an L1 adaptive control system for the control of an orbiting spacecraft with flex...
Abstract: This paper is concerned with vibration control of a flexible spacecraft in the presence of...
A flexible spacecraft is a kind of complex systems consisting of rigid bodies and flexible appendage...
To achieve the high accuracy attitude stabilization, by utilizing finite-time control technique, a n...
The general objective of this Ph.D. thesis is to study the dynamics and control of rigid and flexibl...
A robust adaptive constrained control scheme is proposed for flexible spacecraft attitude maneuver a...
A design of a robust attitude control system for flexible spacecraft is proposed in this paper, sinc...
Abstract: This paper is concerned with the development of a control system for rotational maneuver a...
In this paper, a new approach for vibration control of flexible spacecraft during attitude maneuveri...
Abstract — The aim is to develop vibration control of flexible spacecraft by adaptive controller. A ...
The attitude control and disturbance rejection problems are investigated in this paper for a flexibl...
The aim is to develop vibration control of flexible spacecraft by adaptive controller. A case study ...
summary:This paper presents a novel robust optimal control approach for attitude stabilization of a ...
A new adaptive control system for the rotational maneuver and vibration suppression of an orbiting s...
The paper presents the design of a new simple adaptive system for the rotational maneuver and vibrat...
The development of an L1 adaptive control system for the control of an orbiting spacecraft with flex...
Abstract: This paper is concerned with vibration control of a flexible spacecraft in the presence of...
A flexible spacecraft is a kind of complex systems consisting of rigid bodies and flexible appendage...
To achieve the high accuracy attitude stabilization, by utilizing finite-time control technique, a n...
The general objective of this Ph.D. thesis is to study the dynamics and control of rigid and flexibl...