A nonlinear control law for large angle rotational maneuvers of spacecraft using reaction wheels in the presence of uncertainty is presented. The derivation of this suboptimal control law does not require any information on the values of the system parameters and the disturbance torques acting on the spacecraft. The controller includes a dynamic system in the feedback path. The control law is a nonlinear function of the attitude error, the rate of the attitude error and the compensator state. Simulation results are presented to show that large angle rotational maneuvers can be performed in spite of the uncertainty in the system
We present a control law for large-angle single-axis rotational maneuvers of a spacecraft-beamtip bo...
Abstract: This paper is concerned with the development of a control system for rotational maneuver a...
This paper presents an attitude control strategy and a new nonlinear tracking controller for a space...
A nonlinear control law for large angle rotational maneuvers of spacecraft using reaction wheels in ...
A model reference adaptive control law is presented for large angle rotational maneuvers of spacecra...
A nonlinear adaptive control law for the attitude control of satellites using gyrotorquers is presen...
This paper considers control of a class of uncertain nonlinear systems which can be decoupled by sta...
Control of a class of uncertain nonlinear systems which can be decoupled by state-variable feedback ...
Abstract In this paper we apply the robust redesign for transient performance recovery of nonlinear...
This paper investigates the performance of three types of fixed-gain and adap-tive control laws that...
A control law is presented for asymptotic function reproducibility in a class of nonlinear-systems s...
Several laws are designed for simultaneous control of the orientation of an Earth-pointing spacecraf...
This paper considers non-linear regulation and angular momenta management of a Space Station in the ...
The general objective of this Ph.D. thesis is to study the dynamics and control of rigid and flexibl...
This paper considers non-linear regulation and angular momenta management of a Space Station in the ...
We present a control law for large-angle single-axis rotational maneuvers of a spacecraft-beamtip bo...
Abstract: This paper is concerned with the development of a control system for rotational maneuver a...
This paper presents an attitude control strategy and a new nonlinear tracking controller for a space...
A nonlinear control law for large angle rotational maneuvers of spacecraft using reaction wheels in ...
A model reference adaptive control law is presented for large angle rotational maneuvers of spacecra...
A nonlinear adaptive control law for the attitude control of satellites using gyrotorquers is presen...
This paper considers control of a class of uncertain nonlinear systems which can be decoupled by sta...
Control of a class of uncertain nonlinear systems which can be decoupled by state-variable feedback ...
Abstract In this paper we apply the robust redesign for transient performance recovery of nonlinear...
This paper investigates the performance of three types of fixed-gain and adap-tive control laws that...
A control law is presented for asymptotic function reproducibility in a class of nonlinear-systems s...
Several laws are designed for simultaneous control of the orientation of an Earth-pointing spacecraf...
This paper considers non-linear regulation and angular momenta management of a Space Station in the ...
The general objective of this Ph.D. thesis is to study the dynamics and control of rigid and flexibl...
This paper considers non-linear regulation and angular momenta management of a Space Station in the ...
We present a control law for large-angle single-axis rotational maneuvers of a spacecraft-beamtip bo...
Abstract: This paper is concerned with the development of a control system for rotational maneuver a...
This paper presents an attitude control strategy and a new nonlinear tracking controller for a space...