PSInSAR(永久散射体合成孔径雷达干涉测量)处理流程
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永久散射体(Persistent Scatterers): 1. 城市居民点 2. 人造建筑物,如绿色房子、水坝、金属 3. 混凝土特征(如建筑物、管道) 4. 天然的目标:暴露良好的露头岩层
通过永久散射体,来校正大气对影像的影像,得到毫米级地表形变
PS 模块介绍
说明: 输出的结果存储在特定的步骤文件夹中,程序在处理执行过程中创建 根目录中有一个 auxiliary.sml 文件,在执行不同步骤时会更新。这个文件包含了处理的所
I
0-Persistent Scatterers
介绍
目的:监控地表的形变 优势:测量精度达到毫米级,经典的干涉测量方法只能到厘米级 说明:参考多个时相的 SAR 图像(至少 20 个),使用专门的时空过滤操作来改进识别和对图 像进一步去除大气影响。 缺点:该模块不能处理 ScanSAR 数据 原理:
SARScape 中 PS InSAR 处理
转载自 https:///summer_dew/article/details/79309255 https:///summer_dew/article/details/79199121 https:///summer_dew/article/details/79200830 https:///summer_dew/article/details/79203512 https:///summer_dew/article/details/79207672 https:///summer_dew/article/tent Scatterers.................................................................................................... 1 介绍........................................................................................................................ 1 PS 模块介绍...........................................................................................................1
4-Inversion:Second Step.................................................................................................9 输入文件................................................................................................................ 9 输出文件................................................................................................................ 9 工具详细参数........................................................................................................ 9 目的........................................................................................................................ 9 技术说明................................................................................................................ 9
1-Connection Graph....................................................................................................... 2 工具详细参数........................................................................................................ 2 输出文件................................................................................................................ 2 目的........................................................................................................................ 2 技术说明................................................................................................................ 3 帮助文档................................................................................................................ 3
有信息 work 文件夹存放步骤的中间文件 若过程中意外退出,可接着该步骤。若要从头开始计算,则需勾选 Rebuilt All
步骤: 1. Connection Graph
找出主影像(可自己指定),其他影像(从属影像)分别与主影像构成两两连接关系, 生成影像对 2. Interferometric Process 为每个影像相对于主影像做干涉,以及产生强度图像 3. Inversion:First Step 反演的第一步。计算出位移、速度等结果(未移除任何大气影响),并找出永久散射体 4. Inversion:Second Step 根据反演第一步所得参数(PS 点),对图像进行大气校正,并计算出位移 5. Geocoding 为所有 PS 结果(位移速度、剩余高度、位移时间序列、kml 与 shp 文件)进行地理编码 (为每个点标记地理位置)
3-Inversion:First Step..................................................................................................... 7 输入文件................................................................................................................ 7 输出文件................................................................................................................ 7 工具详细参数........................................................................................................ 7 目的........................................................................................................................ 8 技术说明................................................................................................................ 8
2-Interferometric Process............................................................................................... 4 输入文件................................................................................................................ 4 输出文件................................................................................................................ 4 工具详细参数........................................................................................................ 4 目的........................................................................................................................ 5 技术说明................................................................................................................ 5
5-Geocoding................................................................................................................. 11 输入文件.............................................................................................................. 11 输出文件.............................................................................................................. 11 工具详细参数...................................................................................................... 12 目的...................................................................................................................... 12 技术说明.............................................................................................................. 13
通过永久散射体,来校正大气对影像的影像,得到毫米级地表形变
PS 模块介绍
说明: 输出的结果存储在特定的步骤文件夹中,程序在处理执行过程中创建 根目录中有一个 auxiliary.sml 文件,在执行不同步骤时会更新。这个文件包含了处理的所
I
0-Persistent Scatterers
介绍
目的:监控地表的形变 优势:测量精度达到毫米级,经典的干涉测量方法只能到厘米级 说明:参考多个时相的 SAR 图像(至少 20 个),使用专门的时空过滤操作来改进识别和对图 像进一步去除大气影响。 缺点:该模块不能处理 ScanSAR 数据 原理:
SARScape 中 PS InSAR 处理
转载自 https:///summer_dew/article/details/79309255 https:///summer_dew/article/details/79199121 https:///summer_dew/article/details/79200830 https:///summer_dew/article/details/79203512 https:///summer_dew/article/details/79207672 https:///summer_dew/article/tent Scatterers.................................................................................................... 1 介绍........................................................................................................................ 1 PS 模块介绍...........................................................................................................1
4-Inversion:Second Step.................................................................................................9 输入文件................................................................................................................ 9 输出文件................................................................................................................ 9 工具详细参数........................................................................................................ 9 目的........................................................................................................................ 9 技术说明................................................................................................................ 9
1-Connection Graph....................................................................................................... 2 工具详细参数........................................................................................................ 2 输出文件................................................................................................................ 2 目的........................................................................................................................ 2 技术说明................................................................................................................ 3 帮助文档................................................................................................................ 3
有信息 work 文件夹存放步骤的中间文件 若过程中意外退出,可接着该步骤。若要从头开始计算,则需勾选 Rebuilt All
步骤: 1. Connection Graph
找出主影像(可自己指定),其他影像(从属影像)分别与主影像构成两两连接关系, 生成影像对 2. Interferometric Process 为每个影像相对于主影像做干涉,以及产生强度图像 3. Inversion:First Step 反演的第一步。计算出位移、速度等结果(未移除任何大气影响),并找出永久散射体 4. Inversion:Second Step 根据反演第一步所得参数(PS 点),对图像进行大气校正,并计算出位移 5. Geocoding 为所有 PS 结果(位移速度、剩余高度、位移时间序列、kml 与 shp 文件)进行地理编码 (为每个点标记地理位置)
3-Inversion:First Step..................................................................................................... 7 输入文件................................................................................................................ 7 输出文件................................................................................................................ 7 工具详细参数........................................................................................................ 7 目的........................................................................................................................ 8 技术说明................................................................................................................ 8
2-Interferometric Process............................................................................................... 4 输入文件................................................................................................................ 4 输出文件................................................................................................................ 4 工具详细参数........................................................................................................ 4 目的........................................................................................................................ 5 技术说明................................................................................................................ 5
5-Geocoding................................................................................................................. 11 输入文件.............................................................................................................. 11 输出文件.............................................................................................................. 11 工具详细参数...................................................................................................... 12 目的...................................................................................................................... 12 技术说明.............................................................................................................. 13