摘要
山区地形复杂,遥感影像地形效应明显,易造成"同物异谱"、"同谱异物"现象,增大了遥感地质填图的难度.但前人对适用于复杂地形条件下地质填图的地形校正模型讨论较少,特别是校正高空间分辨率遥感影像时多缺少对应高精度数字高程模型,校正结果易受地形异常影响.在Richter"山区"校正模型基础上引入地形抹平模型,提出"Smoothed山区"校正方法,并与另14种地形校正模型在GF-1、GF-2、SPOT6山区影像上进行对比实验.结果显示,"Smoothed山区"校正模型在山区高空间分辨率遥感影像的校正效果明显优于其他模型,校正结果地形效应减弱,影像信息丰富不失真,并且直接获取地表反射率数据,可为进一步的遥感蚀变提取等工作提供基础数据.该模型适用于复杂地形山区的遥感地质填图.
With complex terrain and steep slopes,sharp orographic effect occurs in mountainous areas which obviously increases the difficulty of remote sensing geological mapping by the phenomenon of"different bodies with same spectrums"or"same body with different spectrums".Although several Topographic correction(TOC)methods have been proposed and applied to vegetationcovered area and snowfield successfully in the last decades,there is little discussion on topographic correction models for geological mapping under complex topographic conditions,which have totally different application environment since the uncovered geological bodies of mountainous areas have bigger spatial variability.Especially in the correction of high spatial resolution remote sensing images,the corresponding high-precision Digital Elevation Model(DEM)is often absent,and the correction results are vulnerable to topographic anomalies.This paper proposes a"Smoothed Mountains"correction method,which combines Richter"Mountains"correction model with terrain smoothing model.GF-1,GF-2 and SPOT6 mountain images obtained by this model have been compared with those by other 14 terrain correction models.The results show that the stability and correction effect of the"Smoothed Mountains"correction model are obviously better than other models.The correction images show that the terrain effect is weakened,and the image information is rich and undistorted.Moreover,the surface reflectance data can be obtained directly,which provides basic data for further remote sensing alteration extraction.Therefore,the"Smoothed Mountains"model could be a practical and feasible TOC model in remote sensing geological mapping over steep mountain terrain.
作者
柳潇
吕新彪
吴春明
刘洪
黄瀚霄
李俊
李敏敏
毛晨
周文孝
Liu Xiao;Lv Xinbiao;Wu Chunming;Liu Hong;Huang Hanxiao;Li Jun;Li Minmin;Mao Chen;Zhou Wenxiao(Geological Survey Insitute,China University of Geosciences,Wuhan 430074,China;Faculty of Earth Resources,China University of Geosciences,Wuhan 430074,China;State Key Laboratory of Geological Processes and Mineral Resources,China University of Geosciences,Wuhan 430074,China;Chengdu Center,China Geological Survey,Chengdu 610081,China;China Aero Geophysical Survey and Remote Sensing Center for Land and Resources,Beijing 100083,China)
出处
《地球科学》
EI
CAS
CSCD
北大核心
2020年第2期645-662,共18页
Earth Science
基金
中国地质调查局地质大调查项目(No.12120114018001)
国家重点研发计划项目(No.SQ2018YFC060162)
中国地质调查项目(No.DD20190540).
关键词
地形校正
山地
遥感地质填图
高空间分辨率
遥感
地形抹平
Topographic correction
mountainous terrain
Remote sensing geological mapping
high spatial resolution remote sensing
smoothed terrain
