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极轨气象卫星自动地标导航方法

杨磊 杨忠东

杨磊, 杨忠东. 极轨气象卫星自动地标导航方法. 应用气象学报, 2009, 20(3): 329-336..
引用本文: 杨磊, 杨忠东. 极轨气象卫星自动地标导航方法. 应用气象学报, 2009, 20(3): 329-336.
Yang Lei, Yang Zhongdong. The automated landmark navigation of the polar meteorological satellite. J Appl Meteor Sci, 2009, 20(3): 329-336.
Citation: Yang Lei, Yang Zhongdong. The automated landmark navigation of the polar meteorological satellite. J Appl Meteor Sci, 2009, 20(3): 329-336.

极轨气象卫星自动地标导航方法

资助项目: 

国家自然科学基金青年科学基金项目 60702040

科技部科技支撑项目 科技部科技支撑项目

The Automated Landmark Navigation of the Polar Meteorological Satellite

  • 摘要: 该文实现了一种极轨气象卫星的自动地标导航方法。地标导航能够纠正由于姿态而引起的定位误差。首先根据当前轨道遥感卫星图像中海洋、陆地、河流等地物特征能量的概率分布情况,利用全球模板,建立地标库,然后通过最大相关系数方法计算地标偏移量,从而获得姿态偏差,之后利用计算得到的姿态偏差对遥感卫星图像重新导航,获得地理定位结果。利用FY-1D扫描辐射计的遥感数据对方法进行检验,结果表明:该文所提出的自动地标导航方法可以有效纠正由姿态而引起的定位误差,达到像素级的定位精度。该方法能够突破传统地标导航方法需要丰富的遥感卫星历史资料的限制,拓展传统地标导航方法的适应范围。该方法已在我国2008年5月发射的新一代极轨气象卫星FY-3号上得到应用,并将在下一代静止轨道气象卫星FY-4号上进一步开发。
  • 图  1  自动地标导航流程

    Fig. 1  Flowchart of the automated landmark navigation process

    图  2  地面控制点定义

    Fig. 2  Definition of ground control point

    图  3  地标生成过程

    (其中海/陆槪率分布采用的数据是2005年6月20日23:37 (世界时) FY-1D扫描辐射计第4通道数据)

    Fig. 3  Examples of landmark whose energy distribution data is from the FY-1D scanning radiomoter 4th band data at 23:37 20 June 2005

    图  4  俄罗斯奥廖克明斯克附近的勒拿河FY-1D扫描辐射计遥感图像定位结果

    Fig. 4  FY-1D scanning radiometer image navigation of Lena near Olokminsk in Russia

    图  5  俄罗斯阿尔丹河FY-1D扫描辐射计遥感图像定位

    Fig. 5  FY-1D scanning radiometer image navigation of Aldan River

    图  6  渤海湾地区FY-1D扫描辐射计遥感图像定位

    Fig. 6  FY-1D scanning radiometer image navigation of the Bohai Culf

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出版历程
  • 收稿日期:  2008-05-29
  • 修回日期:  2008-12-26
  • 刊出日期:  2009-06-30

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