Image Positioning Accuracy Analysis for Super Low Altitude Remote Sensing Satellites

• Main Authors: Ming Xu, Nan Zhou
• Format: Article
• Language: English
• Published: SAGE Publishing 2012-10-01
• Series: International Journal of Advanced Robotic Systems
• Online Access: https://doi.org/10.5772/52766

Super low altitude remote sensing satellites maintain lower flight altitudes by means of ion propulsion in order to improve image resolution and positioning accuracy. The use of engineering data in design for achieving image positioning accuracy is discussed in this paper based on the principles of the photogrammetry theory. The exact line-of-sight rebuilding of each detection element and this direction precisely intersecting with the Earth's elliptical when the camera on the satellite is imaging are both ensured by the combined design of key parameters. These parameters include: orbit determination accuracy, attitude determination accuracy, camera exposure time, accurately synchronizing the reception of ephemeris with attitude data, geometric calibration and precise orbit verification. Precise simulation calculations show that image positioning accuracy of super low altitude remote sensing satellites is not obviously improved. The attitude determination error of a satellite still restricts its positioning accuracy.