Abstract: A control system is proposed for a low Earth orbit gravity gradient stabilised microsatellite using Z wheel. The microsatellite is 3-axis stabilized using a yaw reaction wheel, with dual redundant 3-axis magnetorquers. Two vector magnetometers and four dual sun sensors are carried in order to determine the full attitude. The attitude was estimated using an Euler angles (small libration version) on based extended Kalman filter (EKF). After the satellite has been detumbled and deploy the gravity gradient boom, in order to have the accurate Nadir pointing we will use the Z zero-bias mode controller. The Z momentum wheel will be damped by the magnetorquers. This paper describes the attitude determination and control system design of L...
This paper addresses the problem of the momentum dumping for the pitch momentum wheel onboard ALMASa...
UoSAT-12 is a low-cost minisatellite built by Surrey Satellite Technology Ltd. (SSTL), it is amongst...
Attitude control of spacecraft in low Earth orbits can be achieved by exploiting the torques generat...
A control system is proposed for a low Earth orbit gravity gradient stabilised microsatellite using ...
A control system is proposed for a low Earth orbit gravity gradient stabilised microsatellite using ...
This paper deals with the attitude control of a microsatellite for multi-mission applications in sun...
New advanced control techniques for attitude determination and control of small (micro) satellites a...
ABSTRACT- New advanced control techniques for the attitude determination and control of the SUNSAT m...
SMART (Scientific Microsatellite for Advanced Research and Technology) is a project of the two Unive...
In this paper a low-weight, low-power magnetic attitude control system, consisting of three magnetic...
This paper deals with the attitude acquisition and control for the Italian Scientific Microsatellite...
[[abstract]]When the orbital altitude of a satellite is relatively low, for example, less than 500 k...
This paper deals with the Attitude Determination And Control Subsystem (ADACS) of the SMART microsat...
[[abstract]]When the orbital altitude of a satellite is relatively low, for example, less than 500 k...
A 55 kg micro-piggyback satellite, “µ-Lab Sat”, is currently under development. One of its missions ...
This paper addresses the problem of the momentum dumping for the pitch momentum wheel onboard ALMASa...
UoSAT-12 is a low-cost minisatellite built by Surrey Satellite Technology Ltd. (SSTL), it is amongst...
Attitude control of spacecraft in low Earth orbits can be achieved by exploiting the torques generat...
A control system is proposed for a low Earth orbit gravity gradient stabilised microsatellite using ...
A control system is proposed for a low Earth orbit gravity gradient stabilised microsatellite using ...
This paper deals with the attitude control of a microsatellite for multi-mission applications in sun...
New advanced control techniques for attitude determination and control of small (micro) satellites a...
ABSTRACT- New advanced control techniques for the attitude determination and control of the SUNSAT m...
SMART (Scientific Microsatellite for Advanced Research and Technology) is a project of the two Unive...
In this paper a low-weight, low-power magnetic attitude control system, consisting of three magnetic...
This paper deals with the attitude acquisition and control for the Italian Scientific Microsatellite...
[[abstract]]When the orbital altitude of a satellite is relatively low, for example, less than 500 k...
This paper deals with the Attitude Determination And Control Subsystem (ADACS) of the SMART microsat...
[[abstract]]When the orbital altitude of a satellite is relatively low, for example, less than 500 k...
A 55 kg micro-piggyback satellite, “µ-Lab Sat”, is currently under development. One of its missions ...
This paper addresses the problem of the momentum dumping for the pitch momentum wheel onboard ALMASa...
UoSAT-12 is a low-cost minisatellite built by Surrey Satellite Technology Ltd. (SSTL), it is amongst...
Attitude control of spacecraft in low Earth orbits can be achieved by exploiting the torques generat...