THE TEXTURAL ANALYSIS AND 
INTERPRETATION OF HIGH RESOLUTION AIRSAR IMAGES 
= d M n ^ : . - ih 
Zhao Zheng *, Zhang JiXian?, Huang GuoMan?, WANG Rong-bin" 
* Chinese Academy of Surveying and Mapping, 100039 Beijing 16 Beitaiping Road, China - 
zhengzhaochina@163.com 
"China Land Surveying and Planning Institute, 100039 Beijing 16 Beitaiping Road, China- 
wangrongbin@china.com.en 
Commission II, WG 11/2 
KEY WORDS: SAR, High resolution, Texture, Analysis, Interpretation, Mapping 
ABSTRACT: 
This paper goes deep into the airborne SAR (AIRSAR) imagery mechanism, and from the application requirement of surveying and 
mapping, stresses solving the key technology of AIRSAR application ----- textural analysis and interpretation. Regarding AIRSAR 
images as experimental data, this paper analyses the texture information of high resolution images through texture analysis methods. 
An example of AIRSAR image of an area in China and its interpretation from texture is shown that the high resolution imaging radar 
system designed not only for experimental purposes but also for practical use. This contribution will provide further insights 
regarding the uses and applications of remote sensing AIRSAR data for topographic mapping purposes. 
1. INTRODUCTION 
From the end of 20 century to the beginning of 21 century, 
owing to the great breakthrough of SAR (Synthetic Aperture 
Radar) technology especially navigation! position location and 
sensor platform pose control technology, the foreground 
becomes suddenly clear on applying high-resolution AIRSAR 
and INSAR technology to topography surveying. The AIRSAR 
system can attain significantly high resolution through the use 
of advanced signal processing such as aperture synthesizing and 
pulse compression. It’s of great economic and social 
significance for SAR with all-weather capturing data to solve 
image data acquisition with a scale of 1:10000~1:5000 in the 
difficult districts of aerial photogrammetry, and shorten the 
basic scales mapping and map updating periods. This paper 
goes deep into the AIRSAR imagery mechanism, and from the 
application requirement of surveying and mapping, stresses 
solving the key technology of AIRSAR application ----- textural 
analysis and interpretation. 
Textural analysis can be especially powerful as an aid in 
topography mapping. For the image based on texture analysis, 
the selected texture feature should make some image statistic 
values such as deviation change obviously after the image 
texture transformation. There are some classic texture feature 
description methods such as the deviation texture analysis, 
Fourier texture description and grey symbiotic matrix feature 
analysis. We propose to the textural analysis techniques and 
adapt them to the interpretation of high resolution AIRSAR data. 
In order to prove the view effect to the texture analysis result of 
different kind of texture feature images, the statistic data of the 
AIRSAR images is calculated for the comparison of different 
texture results of contrast and some other statistic value 
variation, which can make image interpretation casier. The 
statistic data such as the grey average, deviation, maximize and 
minimize grey value and entropy is calculated in different 
texture feature dimension. An interpretation of radar images can 
160 
often permit a fuller comprehension of the morphology of the 
landforms and the nature of the materials that form those 
landforms when compared with optical datasets. This 
interpretation is driven by a relationship between surface 
morphology and composition of particular landform units. An 
example of AIRSAR image of an area in China and its 
interpretation from texture is shown that: 
|l. The images provided by SAR appear quite similar to 
monochrome aircraft photograph. 
2. In addition, SAR can identify objects in a manner 
different from that of optical sensors, as light and 
microwaves show different behaviors in scattering and 
reflection. 
3. We confirm the feasibility on the application of high- 
resolution AIRSAR in the topography of Surveying and 
Mapping through textural analysis and interpretation. 
From all, we can find the high resolution imaging radar system 
designed not only for experimental purposes but also for 
practical use. This contribution will provide further insights 
regarding the uses and applications of remote sensing AIRSAR 
data for topographic mapping purposes. 
2. AIRSAR IMAGES 
       
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