In-flight calibration of an integrated attitude determination system for a small information satellite
Recent Advances in Space Technologies(2013)
摘要
Contemporary information mini-satellites have general mass up to 500 kg and are placed onto the orbit altitudes from 500 up to 1500 km. For such spacecraft some principle problems on precise attitude determination and in-flight calibration are considered and elaborated methods are presented for their solving. Original multiple discrete algorithms for filtering, integration and calibration of a strapped-down inertial navigation system for precise determining the spacecraft attitude, are presented. This system contains electrostatic micro-accelerometer, an inertial measurement unit based on the gyro sensors, an astronomical system based on star trackers, multi-head Sun sensor and magnetic sensor, the that are fixed to the spacecraft body.
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关键词
accelerometers,artificial satellites,attitude measurement,calibration,electrostatic devices,filtering theory,inertial navigation,magnetic sensors,microsensors,satellite navigation,star trackers,astronomical system,distance 500 km to 1500 km,electrostatic microaccelerometer,filtering,gyro sensor,in-flight calibration,inertial measurement unit,integrated attitude determination system,magnetic sensor,multihead sun sensor,multiple discrete algorithm,orbit altitude,small information satellite,spacecraft attitude,star tracker,strapped-down inertial navigation system,attitude determination,satellite,quaternions,sensors,vectors,estimation
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