Most spacecrafts are designed to be maneuvered to achieve pointing goals. This is accomplished usually by designing a three-axis control system, which can achieve arbitrary maneuvers, where the goal is to repoint the spacecraft and match a desired angular velocity at the end of the maneuver. New control laws are required, however, if one of the three-axis control actuators fails. This paper explores suboptimal maneuver strategies when only two control torque inputs are available. To handle this underactuated system control problem, the three-axis maneuver strategy is transformed to two successive independent submaneuver strategies. The first maneuver is conducted on one of the available torque axes. Next, the second maneuver is conducted on...
In this paper a reorientation maneuvering strategy for an interconnection of planar rigid bodies in ...
Maintaining the attitude of a spacecraft precisely aligned to a given orientation is crucial for com...
Recent results show that a nonsmooth, time-invariant feedback control law can be used to rotate an a...
Most spacecraft are designed to be maneuvered to achieve pointing goals. This is generally accomplis...
In this paper the problem of maneuver planning is analyzed in presence of multiple constraints, wit...
. A three dimensional reorientation problem for an underactuated multibody spacecraft is studied. Fo...
It is well known that three momentum wheel actuators can be used to control the attitude of a rigid ...
This thesis addresses sub-optimal employment of 3 momentum wheels for large angle reorientation of r...
The challenging problem of controlling the attitude of satellites subject to actuator failures has b...
The study examines the control algorithm of a three-dimensional attitude and position of a free-floa...
The problem of slewing a rigid body from an arbitrary initial orientation to a desired target orient...
none3In this paper the problem of maneuver planning is analyzed in presence of multiple constraints,...
Actuator failures onboard satellites have caused severe and even disastrous consequences on several ...
A Feedforward/Feedback Control Law is described for achieving near-minimum time reorientation of a r...
The paper deals with attitude dynamics of an underactuated spacecraft, proposing a technique for ai...
In this paper a reorientation maneuvering strategy for an interconnection of planar rigid bodies in ...
Maintaining the attitude of a spacecraft precisely aligned to a given orientation is crucial for com...
Recent results show that a nonsmooth, time-invariant feedback control law can be used to rotate an a...
Most spacecraft are designed to be maneuvered to achieve pointing goals. This is generally accomplis...
In this paper the problem of maneuver planning is analyzed in presence of multiple constraints, wit...
. A three dimensional reorientation problem for an underactuated multibody spacecraft is studied. Fo...
It is well known that three momentum wheel actuators can be used to control the attitude of a rigid ...
This thesis addresses sub-optimal employment of 3 momentum wheels for large angle reorientation of r...
The challenging problem of controlling the attitude of satellites subject to actuator failures has b...
The study examines the control algorithm of a three-dimensional attitude and position of a free-floa...
The problem of slewing a rigid body from an arbitrary initial orientation to a desired target orient...
none3In this paper the problem of maneuver planning is analyzed in presence of multiple constraints,...
Actuator failures onboard satellites have caused severe and even disastrous consequences on several ...
A Feedforward/Feedback Control Law is described for achieving near-minimum time reorientation of a r...
The paper deals with attitude dynamics of an underactuated spacecraft, proposing a technique for ai...
In this paper a reorientation maneuvering strategy for an interconnection of planar rigid bodies in ...
Maintaining the attitude of a spacecraft precisely aligned to a given orientation is crucial for com...
Recent results show that a nonsmooth, time-invariant feedback control law can be used to rotate an a...