汶川震后震害区DEM提取方法研究——以平武县为例
|
摘要
数字高程模型(DEM)是地理信息系统的基础数据,在与地形相关的各个领域都有非常广阔的应用前景,因此,对DEM的生产和应用研究意义重大。5.12汶川特大地震导致灾区地形严重破坏,原有的地形图及DEM数据不再具备时效性;而有效的DEM数据在当时抗震救灾和灾后重建高精度正射遥感影像地图制作、三维漫游、公路交通及地质灾害信息提取和预警预报等方面又极为重要。因此,采用何种技术方法快速获取灾区震后DEM数据是当时亟待解决的问题。利用ENVI平台,以四川省平武县为实验区,选用IRS-P5卫星遥感立体像对,尝试在不能采集到高精度地面控制点的条件下,为应急快速获取研究区震后1∶5万DEM数据的工作流程。实验结果及其精度评价表明,获取的实验区震后DEM精度达到了1∶5万或更高比例尺DEM精度标准。该研究方法及提取DEM的工作流程对类似地区应急条件下提取达到一定精度要求的DEM有实用参考价值。
DEM is the basis of geographic information system data,associated with the terrain in all areas has a very broad application prospects,in the production and applications of DEM,has an important significance.Wenchuan earthquake changed the existing landscape of disaster area,lead to the original DEM data and Topographic Map no longer have timeliness,the effective DEM data for earthquake relief at the time and reconstruction accuracy orthophoto imagery map production,3D roaming,road transport and geological disaster forecast and warning information extraction,etc.is extremely important.Therefore,the technical methods adopted quickly after the earthquake disaster obtain DEM data was a serious problem.In this context,this paper use ENVI platform,selected for the study area in Sichuan Province Pingwu country,select IRS-P5 stereo pair as the main source of the data,in the emergency case of cannot be collected in high-precision ground control points,try to get the study area 1∶50 000 DEM data after the earthquake quickly.Experimental results and the accuracy assessment show that,the experimental area for post-earthquake DEM accuracy,reaching 1∶50 000 scale accuracy or higher standard.This research method and process in similar regions of emergency conditions to extract up to a certain precision of the DEM has practical reference value.
DEM is the basis of geographic information system data,associated with the terrain in all areas has a very broad application prospects,in the production and applications of DEM,has an important significance.Wenchuan earthquake changed the existing landscape of disaster area,lead to the original DEM data and Topographic Map no longer have timeliness,the effective DEM data for earthquake relief at the time and reconstruction accuracy orthophoto imagery map production,3D roaming,road transport and geological disaster forecast and warning information extraction,etc.is extremely important.Therefore,the technical methods adopted quickly after the earthquake disaster obtain DEM data was a serious problem.In this context,this paper use ENVI platform,selected for the study area in Sichuan Province Pingwu country,select IRS-P5 stereo pair as the main source of the data,in the emergency case of cannot be collected in high-precision ground control points,try to get the study area 1∶50 000 DEM data after the earthquake quickly.Experimental results and the accuracy assessment show that,the experimental area for post-earthquake DEM accuracy,reaching 1∶50 000 scale accuracy or higher standard.This research method and process in similar regions of emergency conditions to extract up to a certain precision of the DEM has practical reference value.
引文
[1]Liu Jiahang,Yang Jianfeng,Wei Chengjie,et al.Acquisition ofEarthquake Damage Information based on Remote SensingTechnology:History,Current Situation and Trend[J].Journalof Natural Disasters,2004,13(6):46-52.[柳稼航,杨建峰,魏成阶,等.震害信息遥感获取技术历史、现状和趋势[J].自然灾害学报,2004,13(6):46-52.]
[2]Zhu Mingran,Meng Xian,Zhang Mingtao,et al.DEM ProductQuality Inspection and the Realization of Software ArcGIS[J].Modern Manufacturing Technology and Equipment,2008,(3):74-75,80.[祝明然,孟先,张明涛,等.数字高程模型产品质量检查及ArcGIS软件的实现[J].现代制造技术与装备,2008(3):74-75,80.]
[3]Beijing Oriental Dawn Information Technology Co.,Ltd.IndiaCARTOSAT-1(IRS-P5)Satellite Introduction[M/OL].http://bjeo.com.cn/pbnens/213728/20070612,2006.[北京东方道迩信息技术有限公司.印度CARTOSAT-1(IRS-P5)卫星介绍[M/OL].http://bjeo.com.cn/pbnens/213728/20070612,2006.]
[4]Wang Shugen.The Principles and Application of Photogram-metry[M].Wuhan:Wuhan University Press,2009.[王树根.摄影测量原理与应用[M].武汉:武汉大学出版社,2009.]
[5]Ma Suyan.Research on the Extraction of DEM based on HighResolution Remotely-sensed Data[D].Shanghai:East ChinaNormal University,2009.[马素颜.基于高分辨率卫星遥感数据提取DEM方法研究[D].上海:华东师范大学,2009.]
[6]Chai Dengfeng,Zhang Dengrong.Geometric Approach to High-resolution Satellite Images[M].Hangzhou:Zhejiang UniversityPress,2007.[柴登峰,张登荣.高分辨率卫星影像几何处理方法[M].杭州:浙江大学出版社,2007.]
[7]Guan Yuanxiu,Cheng Xiaoyang.High Resolution of SatelliteImage Processing Guide[M].Beijing:Science Press,2008.[关元秀,程晓阳.高分辨率卫星影像处理指南[M].北京:科学出版社,2008.]
[8]Zhao Liping,Liu Fengde,Li Jian,et al.Preliminary Researchon Position Accuracy of IRS-P5[J].Remote Sensing Informa-tion,2007,(2):28-32.[赵利平,刘凤德,李健,等.印度测图卫星IRS-P5定位精度初步研究[J].遥感信息,2007,(2):28-32.]
[9]Xu Gang,Zheng Daxing,Qiao Zijiang,et al.Study on Fast Ex-traction of Landslide Environmental Indicator Parametersbased on High-precision DEM and RS:A Case Study ofChangleyuan Super Large-scale Landslide in Jintai District,Baoji City,Shaanxi Province,China[J].Geological Bulletin ofChina,2009,28(8):1047-1052.[徐刚,郑达兴,乔子江,等.基于高精度DEM和RS技术的滑坡环境指标参数快速提取方法———以陕西省宝鸡市金台区长乐塬特大型滑坡为例[J].地质通报,2009,28(8):1047-1052.]
[2]Zhu Mingran,Meng Xian,Zhang Mingtao,et al.DEM ProductQuality Inspection and the Realization of Software ArcGIS[J].Modern Manufacturing Technology and Equipment,2008,(3):74-75,80.[祝明然,孟先,张明涛,等.数字高程模型产品质量检查及ArcGIS软件的实现[J].现代制造技术与装备,2008(3):74-75,80.]
[3]Beijing Oriental Dawn Information Technology Co.,Ltd.IndiaCARTOSAT-1(IRS-P5)Satellite Introduction[M/OL].http://bjeo.com.cn/pbnens/213728/20070612,2006.[北京东方道迩信息技术有限公司.印度CARTOSAT-1(IRS-P5)卫星介绍[M/OL].http://bjeo.com.cn/pbnens/213728/20070612,2006.]
[4]Wang Shugen.The Principles and Application of Photogram-metry[M].Wuhan:Wuhan University Press,2009.[王树根.摄影测量原理与应用[M].武汉:武汉大学出版社,2009.]
[5]Ma Suyan.Research on the Extraction of DEM based on HighResolution Remotely-sensed Data[D].Shanghai:East ChinaNormal University,2009.[马素颜.基于高分辨率卫星遥感数据提取DEM方法研究[D].上海:华东师范大学,2009.]
[6]Chai Dengfeng,Zhang Dengrong.Geometric Approach to High-resolution Satellite Images[M].Hangzhou:Zhejiang UniversityPress,2007.[柴登峰,张登荣.高分辨率卫星影像几何处理方法[M].杭州:浙江大学出版社,2007.]
[7]Guan Yuanxiu,Cheng Xiaoyang.High Resolution of SatelliteImage Processing Guide[M].Beijing:Science Press,2008.[关元秀,程晓阳.高分辨率卫星影像处理指南[M].北京:科学出版社,2008.]
[8]Zhao Liping,Liu Fengde,Li Jian,et al.Preliminary Researchon Position Accuracy of IRS-P5[J].Remote Sensing Informa-tion,2007,(2):28-32.[赵利平,刘凤德,李健,等.印度测图卫星IRS-P5定位精度初步研究[J].遥感信息,2007,(2):28-32.]
[9]Xu Gang,Zheng Daxing,Qiao Zijiang,et al.Study on Fast Ex-traction of Landslide Environmental Indicator Parametersbased on High-precision DEM and RS:A Case Study ofChangleyuan Super Large-scale Landslide in Jintai District,Baoji City,Shaanxi Province,China[J].Geological Bulletin ofChina,2009,28(8):1047-1052.[徐刚,郑达兴,乔子江,等.基于高精度DEM和RS技术的滑坡环境指标参数快速提取方法———以陕西省宝鸡市金台区长乐塬特大型滑坡为例[J].地质通报,2009,28(8):1047-1052.]
版权所有:© 2023 中国地质图书馆 中国地质调查局地学文献中心