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Dibyendu Dutta Prachi Goel Manisha Singh Vinay Kumar Dadhwal Rodda Suraj Reddy 《国际地球制图》2017,32(3):286-297
A simple and exclusively satellite-based instantaneous net radiation (INR) and its components have been estimated and it is based on the method proposed. The method has been used to check its suitability over West Bengal, India on clear sky days which is eliminating the need for ground-based observations. The method explicitly recognizes the need for spatially varied input parameters to estimate net radiation using remote sensing information and provides a distributed daily average net radiation map with finer spatial resolution. The satellite-derived radiative flux components were compared with the Eddy Flux Tower measurements located at Bonnie camp within mangrove forest. The bias, root-mean square error and R2 between modelled and measured INR are 52.07, 49.5 W m?2 and 0.74, respectively which are within the acceptable limit. The errors in the downward short wave and long wave as well as upward short-wave and long-wave radiative flux are 13.78, 3.54, 12.41 and 3.54%, respectively. Further, variations of all the radiative flux components were analysed over different eco-systems. 相似文献
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为进一步提高观测频次和信噪比,近年来各国新一代静止气象卫星均采用三轴稳定工作模式对地扫描成像。为了精确提取遥感目标物所在地点关于地表、云和大气状态的定量参数产品,必须要解决图像配准和定位问题。轨道漂移运动引起卫星视轴在地球表面上移动,导致连续图像之间产生相对位移,影响云图动画的图像配准精度。以2016年12月发射的中国风云四号卫星成像仪为研究对象,给出了图像参考基准的严密定义,研究了一种轨道运动补偿OMC(Orbit Motion Compensation)方法。通过给成像仪2维扫描机构增加转角补偿的方法在卫星上实时引导视线扫描路径,卫星相当于在理想轨道位置的视角成像。得到的遥感图像均被配准到地球固定网格FG(Fixed Grid),保持相对固定的几何定位关系。由于这种在卫星上完成的补偿剥离了L0级图像数据与卫星轨道测量信息之间的关系,从根源上保证了原始图像的长周期定位稳定性。为证明方法的正确性,利用风云四号卫星在轨测试的遥感图像L0级数据进行了试验验证。结果表明,云图动画中南北方向相对运动距离由973.0μrad缩小至75.6μrad,东西方向由205.8μrad缩小至81.2μrad。星上轨道运动补偿有效削弱了周期性轨道运动对图像定位与配准的干扰,显著提升图像配准精度。针对未来带有长线阵的新型静止卫星成像仪发展趋势,分析了进行星上轨道运动补偿时引起的长线阵探测器边缘像元误差问题,提出了采用电推进系统对卫星轨道倾角进行高精度保持控制来降低边缘误差的解决方案。 相似文献
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