地球临边紫外环形成像仪几何定标技术研究

杨小虎; 王淑荣; 黄煜

doi:doi:10.3788/cjl201441.0913004

中国激光, 2014, 41 (9): 0913004, 网络出版: 2014-08-12

地球临边紫外环形成像仪几何定标技术研究

Research of Geometric Calibration of the Earth Annular Ultraviolet Limb Imager

论文大纲

杨小虎 ^*王淑荣黄煜

作者单位

中国科学院长春光学精密机械与物理研究所, 吉林长春 130033

摘要

针对地球临边紫外环形成像仪的结构特点及高精度几何定标的需要，提出了一种基于紫外平行光管、高精度经纬仪及六维转台等设备进行的几何定标新方法。通过构建相应的几何定标新装置，实现了地球临边紫外环形成像仪超大临边视场的几何定标。几何定标结果显示，仪器在临边高度方向与理论设计符合程度在2 pixel以内，而在临边方位方向与理想情况偏差最大为25 pixel。不确定度分析表明，仪器在临边高度和方位方向上的几何定标不确定度分别为0.488 pixel和0.612 pixel，均达到亚像素级精度。几何定标新方法及装置对后续同类型仪器的前期光机装调及检测提供了重要参考和实现平台。

Abstract

Considering the design feature and requirement in high precision of geometric calibration of the earth annular ultraviolet (UV) limb imager, a new method based on UV collimator, high precision theodolite and six-dimension rotator is proposed. Geometric calibration is done as soon as the new device is built-up. The result shows an agreement of 2 pixel or less with the theoretical design in limb altitude and a biggest deviation of 25 pixel in limb azimuth orientation. The combined standard uncertainty analysis indicates a 0.488 pixel and a 0.612 pixel uncertainty in limb altitude and azimuth orientation respectively, both reaching sub-pixel precision. With the successful accomplishment of the geometric calibration, the method and the device offer an important reference and a realized platform for the pre-optic-mechanical installing and measuring of the similar type of instrument.

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杨小虎, 王淑荣, 黄煜. 地球临边紫外环形成像仪几何定标技术研究[J]. 中国激光, 2014, 41(9): 0913004. Yang Xiaohu, Wang Shurong, Huang Yu. Research of Geometric Calibration of the Earth Annular Ultraviolet Limb Imager[J]. Chinese Journal of Lasers, 2014, 41(9): 0913004.

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