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缺少控制点的SPOT-5 HRS影像RPC模型区域网平差
引用本文:唐新明, 刘昌儒, 张恒, 王霞, 李国元, 莫凡, 李丰翔. 高分七号卫星立体影像与激光测高数据联合区域网平差[J]. 武汉大学学报 ( 信息科学版), 2021, 46(10): 1423-1430. DOI: 10.13203/j.whugis20210417
作者姓名:唐新明  刘昌儒  张恒  王霞  李国元  莫凡  李丰翔
作者单位:1.自然资源部国土卫星遥感应用中心,北京,100048;2.山东省国土测绘院,山东 济南,250102
基金项目:高分遥感测绘应用示范系统(二期)(42-Y30B04-9001-19/21);高分辨率对地观测系统重大专项应用共性关键技术(11-Y20A13-9001-17/18);国家重点研发计划战略性国际科技创新合作重点专项(2016YFE0205300)
摘    要:提高稀少甚至无地面控制点的区域网平差精度,是实现境外和外业测控困难区域高精度测图的核心问题之一,也是主要的技术难点。为了充分利用高分七号激光测高数据与立体影像同步获取、相对精度较高、高程精度极高的特点,充分发挥足印影像作用,提出了一种激光测高数据辅助的高分七号卫星立体影像区域网平差方法。通过足印影像实现了激光高程控制点在立体影像上的自动量测,利用其极高的高程精度对区域网立体影像进行高程控制,经过联合区域网平差实现区域网影像高程精度提升。通过覆盖不同地形类型的山东测区激光测高数据与立体影像联合平差实验表明,仅使用激光测高数据作为高程控制,实验区高程中误差可由原始7.97 m提高到0.79 m,高程最大误差优于1.5 m,高程精度改善明显。

关 键 词:高分七号卫星  激光测高数据  区域网平差  高程控制  足印影像匹配
收稿时间:2021-09-18

Block Adjustment of High-Resolution Satellite Images Described by Rational Functions
TANG Xinming,LIU Changru,ZHANG Heng,WANG Xia,LI Guoyuan,MO Fan,LI Fengxiang. Block Adjustment of High-Resolution Satellite Images Described by Rational Functions[J]. Geomatics and Information Science of Wuhan University, 2021, 69(10): 1423-1430. DOI: 10.13203/j.whugis20210417
Authors:TANG Xinming  LIU Changru  ZHANG Heng  WANG Xia  LI Guoyuan  MO Fan  LI Fengxiang
Affiliation:1.Land Satellite Remote Sensing Application Center, Ministry of Natural Resources, Beijing 100048, China;2.Shandong Provincial Institute of Land Surveying and Mapping, Jinan 250102, China
Abstract:  Objectives  Improving the accuracy of block adjustment with few or even no ground control points (GCP) is one of the core issues for high-precision mapping of areas difficult to get GCP, and it is also a major technical difficulty. In order to make full use of the footprint image and the excellent high accuracy of elevation, and the high relative accuracy between the laser altimetry data and stereo images, we propose a combined adjustment method of Gaofen-7 (GF-7) satellite stereo images aided with laser altimetry data.  Methods  In this method, the elevation control points are automatically extracted by registering the laser footprint images and stereo images, and then they are used as the vertical control in the combined adjustment to improve the elevation accuracy.  Results  The combined block adjustment experiments performed in Shandong with different terrains show that using only laser altimetry data as elevation control, the root mean square errors of elevation can be significantly improved from the original 7.97 m to 0.79 m, and the maximum elevation error is better than 1.5 m.  Conclusions  The experimental results reveal that the proposed method can substantially improve the elevation accuracy of satellite imagery. Additionally, with integration of few horizontal control points, the plane accuracy and elevation accuracy can be simultaneously improved. The proposed method is of great significance to reduce the field survey and improve the efficiency of block adjustment.
Keywords:Gaofen-7 satellite  satellite laser altimetry data  block adjustment  height control  footprint image match
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