Attitude control for a nano-satellite
Nano-satellites are classified as satellites weighing less than 20kg. This dissertation presents the design and development of an Attitude Control System (ACS) for a nanosatellite. The ACS onboard a satellite controls the actuators to orientate the satellite to its desired orientation such...
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| Format: | Theses and Dissertations |
| Language: | English |
| Published: |
2013
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| Online Access: | http://hdl.handle.net/10356/54760 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | Nano-satellites are classified as satellites weighing less than 20kg. This dissertation
presents the design and development of an Attitude Control System (ACS) for a nanosatellite.
The ACS onboard a satellite controls the actuators to orientate the satellite to its
desired orientation such as facing the solar panels towards the sun or orientating the
camera towards the place of interests to capture images. A Model Predictive Control
(MPC) algorithm has been formulated for the attitude control of VELOX-I. Results show
that the ACS is capable of handling the saturation of actuator. The performance has also
been verified experimentally using an air bearing platform.
In a typical satellite configuration, it is common to have a fourth reaction wheel mounted
on a tilted axis for fault redundancy. Due to the constraint of the weight and size for the
satellite, there is no redundancy of ACS. To address this issue, a distributed MPC has
been proposed for attitude control utilizing both the reaction wheels and magnetic
actuators. The simulation results show that the hybrid control system is able to maintain
3-axis control even if a single axis wheel fails. The distributed control scheme is also
shown to react faster than a centralized control scheme. Harvesting of solar power is
required for a satellite to continue operation. The proposed distributed MPC will be
critical for VELOX-I to maintain the sun pointing orientation for harvesting solar power
in the event of single axis reaction wheel failure. |
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