Recent developments in the area of nonlinear control theory have shown how coordiante changes in the state and input spaces can be used with nonlinear feedback to transform certain nonlinear ordinary differential equations into equivalent linear equations. These feedback linearization techniques are applied to resolve two problems arising in the control of spacecraft equipped with control moment gyroscopes (CMGs). The first application involves the computation of rate commands for the gimbals that rotate the individual gyroscopes to produce commanded torques on the spacecraft. The second application is to the long-term management of stored momentum in the system of control moment gyroscopes using environmental torques acting on the vehicle....
A new approach to CMG (control moment gyro) momentum management and attitude control of the Space St...
This paper considers control strategies for maneuvering spacecraft using Single-Gimbal Control Momen...
In this work, we develop a numerically tractable trajectory optimization problem for rest-to-rest at...
This paper presents an approach for controlling spacecraft equipped with control moment gyroscopes. ...
Based on feedback linearization and ultimate boundedness theory, a new approach to attitude control ...
This thesis develops and demonstrates an approach to nonlinear control system design using lineariza...
Three adaptive nonlinear control approaches are proposed for attitude control of a Space Station. Th...
The research in this thesis deals with nonlinear control of spacecraft attitude stabilization and tr...
This paper describes an application of nonlinear controllability theory to the problem of spacecraft...
Several laws are designed for simultaneous control of the orientation of an Earth-pointing spacecraf...
Based on feedback linearization theory, an approach to attitude control of a space station using con...
This dissertation presents a method to address exact feedback linearization problems based on the re...
Based on feedback linearization, a new approach to attitude control of the space station using contr...
This thesis is organized in two parts. In Part 1, control systems described by a class of nonlinear ...
Single Gimbal Control Moment Gyroscopes (CMGs) are thought to be efficient actuators for the attitud...
A new approach to CMG (control moment gyro) momentum management and attitude control of the Space St...
This paper considers control strategies for maneuvering spacecraft using Single-Gimbal Control Momen...
In this work, we develop a numerically tractable trajectory optimization problem for rest-to-rest at...
This paper presents an approach for controlling spacecraft equipped with control moment gyroscopes. ...
Based on feedback linearization and ultimate boundedness theory, a new approach to attitude control ...
This thesis develops and demonstrates an approach to nonlinear control system design using lineariza...
Three adaptive nonlinear control approaches are proposed for attitude control of a Space Station. Th...
The research in this thesis deals with nonlinear control of spacecraft attitude stabilization and tr...
This paper describes an application of nonlinear controllability theory to the problem of spacecraft...
Several laws are designed for simultaneous control of the orientation of an Earth-pointing spacecraf...
Based on feedback linearization theory, an approach to attitude control of a space station using con...
This dissertation presents a method to address exact feedback linearization problems based on the re...
Based on feedback linearization, a new approach to attitude control of the space station using contr...
This thesis is organized in two parts. In Part 1, control systems described by a class of nonlinear ...
Single Gimbal Control Moment Gyroscopes (CMGs) are thought to be efficient actuators for the attitud...
A new approach to CMG (control moment gyro) momentum management and attitude control of the Space St...
This paper considers control strategies for maneuvering spacecraft using Single-Gimbal Control Momen...
In this work, we develop a numerically tractable trajectory optimization problem for rest-to-rest at...