考虑定向参数精度信息的TerraSAR-X和SPOT-5 HRS影像RFM联合定位

卫星影像的RFM模型具有传感器无关的优点,适用于多源影像的几何定位处理,但在无地面控制点条件下联合定位时存在自主定位优势影像难以发挥主导作用且求解易发散的不足。本文通过将影像的先验自主定位精度和成像线性漂移转化为像方定向参数的精度和权信息,建立考虑影像定向参数精度信息的RFM模型。以12景TerraSAR-X和6对12景覆盖面积约为18万km2的SPOT-5 HRS立体长条带影像为数据源,对两类影像定向参数先验精度配置偏差、SAR影像升降轨道方向、SAR影像数目、SAR影像分布等因素对定位精度的影响进行了系列定位试验,少量SAR与大范围HRS联合的影像自主定位平面/高程精度可达6.0 m/4....

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Bibliographic Details
Published in测绘学报 Vol. 46; no. 2; pp. 179 - 187
Main Author 程春泉 张继贤 黄国满 张力 杨景辉
Format Journal Article
LanguageChinese
Published 中国测绘科学研究院,北京,100830 2017
Subjects
HRS
RFM
SPOT-5
TerraSAR-X
全球测图
异源影像
无控制点定位
image positioning without GCP
无控制点定位
positioning with different source images
TerraSAR-X
异源影像
RFM
SPOT-5HRS
全球测图
SPOT-5 HRS
worldwide mapping
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Summary:卫星影像的RFM模型具有传感器无关的优点,适用于多源影像的几何定位处理,但在无地面控制点条件下联合定位时存在自主定位优势影像难以发挥主导作用且求解易发散的不足。本文通过将影像的先验自主定位精度和成像线性漂移转化为像方定向参数的精度和权信息,建立考虑影像定向参数精度信息的RFM模型。以12景TerraSAR-X和6对12景覆盖面积约为18万km2的SPOT-5 HRS立体长条带影像为数据源,对两类影像定向参数先验精度配置偏差、SAR影像升降轨道方向、SAR影像数目、SAR影像分布等因素对定位精度的影响进行了系列定位试验,少量SAR与大范围HRS联合的影像自主定位平面/高程精度可达6.0 m/4.2 m。本文RFM平差模型无地面控制点定位精度和定向参数求解稳健性相对于传统模型有显著提升,是卫星影像无控制点1:10万/1:5万全球测图的一种潜在方法。
Bibliography:11-2089/P
CHENG Chunquan, ZHANG Jixian, HUANG Guoman, ZHANG Li, YANG Jinghui (Chinese Academy of Surveying and Mapping, Beijing 100830, China )
RFM is suitable for geometric positioning with multi-source images because of the independence of sensors. However, without GCPs the geometric advantages from the geometrically prevailing images cannot be enforced in the traditional RFM-based orientation. It also leads to the apparent flaw of divergence of solving. By translating the priori information of autonomous positioning accuracy and imaging drift errors to bias compensation parameters in image space, it is rebuild a new RFM-based adjustment model which considers the accuracy and weight of the orientational parameters. A test study of positioning without GCPs which includes 12 scenes of TerraSAR-X images and 6 pairs of long-strip stereo SPOT-5 HRS images covering area of 186 000 km2 is conducted. Furthermore, the different impact factors on positioning accuracy, i.e., the accuracy of orientation parameters, the n
ISSN:1001-1595
DOI:10.11947/j.AGCS.2017.20160138