光学学报, 2004, 24 (12): 1585, 网络出版: 2006-06-12
航天光学遥感器像移速度矢计算数学模型 下载: 584次
Space Optical Remote Sensor Image Motion Velocity Vector Computational Modeling
应用光学 遥感 空间光学遥感器 像移速度矢计算 误差分配 蒙特卡罗法 applied optics remote sensing space optical remote sensor image motion velocity vector error budget Monte-Carlo method
摘要
随着地面影像分辨力愈来愈高的要求,航天光学遥感器实时精确补偿摄影时地物产生的像移,已成为必需解决的关键技术之一。论述了航天光学遥感器在对星下点摄影时,通过建立从地面景物到像面的七个坐标系,进行14次线性变换,获得了具有15个参量的像面位置方程、像面速度方程,推导出像面上像移速度矢的计算公式,对影响像移速度矢的11个参量进行误差分配,以及应用蒙特卡罗法(统计试验法)进行误差综合。该理论方法已得到了实际应用,从获得的遥感图像达到的分辨力、奈奎斯特(Nyquist)频率处的传递函数、信噪比和平均灰度层次均充分证明了该研究结果的正确性。
Abstract
For space optical remote sensor (SORS) with either film or TDI-CCD imaging, to achieve higher resolution requires more accurate real-time image motion compensation. This primarily depends on real-time computation of the image motion velocity vector (IMVV) and error budget and synthesis on related parameters. An effective modeling scheme is introduced and the derivation of IMVV equation, error budget and synthesis by Monte-Carlo method are presented in detail. This total solution was applied to SORS system field test and has been confirmed to be very accurate based on the resolution, transfer function at Nyquist frequency, signal-to-noise ratio and average gray scale of the captured images.
王家骐, 于平, 颜昌翔, 任建岳, 何斌. 航天光学遥感器像移速度矢计算数学模型[J]. 光学学报, 2004, 24(12): 1585. 王家骐, 于平, 颜昌翔, 任建岳, 何斌. Space Optical Remote Sensor Image Motion Velocity Vector Computational Modeling[J]. Acta Optica Sinica, 2004, 24(12): 1585.