TM/ETM和DEM数据的BRDF特征提取

张玉环; 仲波; 杨锋杰; 柳钦火

doi:10.11834/jrs.20102423

遥感应用 | 浏览量 : 0 下载量: 765 CSCD: 3 更多指标

PDF
导出
分享
收藏
专辑

TM/ETM和DEM数据的BRDF特征提取
Extraction of BRDF characteristics using TM/ETM+ and DEM data
2012年16卷第2期页码：361-377
纸质出版日期： 2012 ，
DOI： 10.11834/jrs.20102423

扫描看全文

[1]张玉环,仲波,杨锋杰,柳钦火.TM/ETM和DEM数据的BRDF特征提取[J].遥感学报,2012,16(02):361-377.

Extraction of BRDF characteristics using TM/ETM+ and DEM data[J]. Journal of Remote Sensing, 2012,16(2):361-377.
[1]张玉环,仲波,杨锋杰,柳钦火.TM/ETM和DEM数据的BRDF特征提取[J].遥感学报,2012,16(02):361-377. DOI： 10.11834/jrs.20102423.

Extraction of BRDF characteristics using TM/ETM+ and DEM data[J]. Journal of Remote Sensing, 2012,16(2):361-377. DOI： 10.11834/jrs.20102423.

摘要

巴丹吉林沙漠地区地物类型单一

地形起伏

形成了天然的二向反射数据集;因此

本研究利用巴丹吉林沙漠地区的ASTERGDEM产品提供的地面高程数据

计算出每个坡元所对应的太阳-观测几何信息（包括太阳天顶角与方位角和观测天顶角与方位角）

假设沙丘上每个坡元的表面结构不随其坡度和坡向变化

加上Landsat-TM/ETM+对地观测的信息

就形成了对同一地物的多角度观测数据集

从而可以提取该地区的BRDF特征。为了检验该方法

利用该方法获取的BRDF特征信息模拟了25景Landsat-TM/ETM+数据

并与实际的Landsat-TM/ETM+图像进行对比分析。结果表明

Landsat-TM/ETM+前4个波段的模拟图像与真实图像地表平均反射率相比

平均误差分别为2.80%、1.92%、2.68%和2.32%

高于一般辐射定标中5%—7%的误差要求

因此本研究方法可为高分辨率数据的交叉辐射定标等应用提供参考。

Abstract

We propose a method to extract the feature of Bi-directional Reflectance Distribution Functions （BRDF） over Badain Jaran Desert using Landsat-TM/ETM+ and ASTER GDEM data. Badain Jaran Desert is characterized with homogeneous and rugged terrain

which forms a natural Bi-directional Reflectance data sets with hypotheses that the surface structure of each slope element does not vary with the variations of slope and aspect. Therefore

we use nadir view Landsat-TM/ETM+ imagery to reconstruct the BRDF characterization of this experimental site. To begin with we use ASTER GDEM product to retrieve the sun-view geometry for each slope element corresponding to one pixel in remotely sensed imagery. Then the observations from Landsat-TM/ETM+ imagery and the retrieved sun-view geometries are used together to extract the BRDF feature of the experimental site. Finally

we simulate surface reflectance for 25 scenes of different Landsat-TM and ETM+ images and compare the simulations with the actual Landsat-TM and ETM+ imageries. Results show that the difference between the simulation and "true" surface reflectance are 2.80%

1.92%

2.68% and 2.32%

respectively

which is higher than the radiometric calibration error requirement of 5% to 7%. Therefore

the combination of nadir viewing Landsat-TM/ETM+ imagery with ASTER GDEM data can be used to cross-calibrate remotely sensed imagery with large viewing observation.