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3D WAVELET COMPRESSION TO MULTIPLE BAND REMOTE SENSING IMAGES 
BASED ON EDGE RESERVATION 
Qingquan LI" ** Qingwu HU n 
‘Spatial Information and Network Communication Research and Development Center, Wuhan University, Wuhan, PR 
China, 430079 
School of Remote Sensing and Information Engineering, Wuhan University, Wuhan, P.R. China, 430079 
KEY WORDS: 3D Wavelet Transformation, Remove Correlation, Edge Reservation, Image Restoration 
ABSTRACT: 
In this paper, a practical quasi-lossless compression concept and corresponding compression ratio and quality requirements are 
proposed for the multiple band images database construction and web release application. The physical therapy of 3D wavelet 
analysis to the multiple band images data compression is discussed and the fast 3D wavelet transformation model and algorithm to 
the multiple band images is designed. The proposed algorithm is fully exploit the spectral and spatial correlation in the data. To 
adopt to the local edge characteristics of multispectrum image, the 3D wavelet multiple band images compression technique route is 
proposed based on the contour and edge feature of the multiple band images in the same region. And the remove correlation method 
of the multiple band images contour feature keeping using 3D wavelet analysis and relative quantification coding methods to 
different wavelet coefficient based on edge preservation is presented to code the multiple band images. The compression and 
reconstruction experiment results to the 16-band images of the imaging spectrum sensor and the 36-band MODIS images can obtain 
compression ratio over than 16 with PSNR to 42 and reach the quasi-lossless requirements, which show that this compression 
technique can improve the quality of reconstruction images to the requirement of quasi-lossless with the high compression ratio. 
1. INTRODUCTION 
The authors propose that exparty pursuing compression ratio 
and the quality of reconstruction images are not advisable. The 
quasi-lossless compression technique is the best way for the 
multiple spectrum images compression. What is called “quasi- 
lossless " is that the gray standard deviation of the homologous 
pixels between the original image and the restoration image 
after reconstruction is less than the quantified noise(Zhou,1999 
and HU, 2001). At the same time, the accuracy of pixels must 
be less than the sensing imaging system's distortion. Thus, we 
can satisfy the high ratio compression and ensure not to lóss the 
image information. 
In this paper, a practical quasi-lossless compression concept and 
corresponding compression ratio and quality requirements are 
proposed for the multiple band images database construction 
and web release application. The physical therapy of 3D 
wavelet analysis to the multiple band images data compression 
is discussed and the fast 3D wavelet transformation model and 
algorithm to the multiple band images is designed. The 
proposed algorithm is fully exploit the spectral and spatial 
correlation in the data. To adopt to the local edge characteristics 
of multispectral image, the 3D wavelet multiple band images 
compression technique route is proposed based on the contour 
and edge feature of the multiple band images in the same region. 
And the remove correlation method of the multiple band images 
contour feature keeping using 3D wavelet analysis and relative 
quantification coding methods to different wavelet coefficient 
based on edge preservation is presented to code the multiple 
band images. The compression and reconstruction experiment 
results to the 16-band images of the imaging spectrum sensor 
and the 36-band MODIS images can obtain compression ratio 
over than 16 with PSNR to 42 and reach the quasi-lossless 
requirements, which show that this compression technique can 
improve the quality of reconstruction images to the requirement 
of quasi-lossless with the high compression ratio. 
In RS, GIS and DPS (digital photogrammetry system), one of 
key technique is how to deal with the real time transmitting of 
huge remote sensing data and how to build image database. And 
Building digital libraries has become white hot in this era of 
internet and the World Wide Web. In image databases, many 
images must be stored and retrieved, and in data 
communication applications, the image must be small enough to 
be transferred quickly. The loss less coding based on statistics 
has low compression ratio. Although the wavelet compression 
and fractal compression will reach a high compression ratio, 
they belong to degraded compression and need much more CPU 
time. which affect these methods actual application in the field 
of the remote sensing. The remote sensing images have higher 
spatial resolution in wider coverage areas, and a number of 
spectral bands, their accessibility is hindered by the size of 
images. To alleviate these limitations, the image data should be 
compressed. 
The research of multiple spectrum images compression without 
lossless can just reach the ratio about 3:1 and it can be not used 
for the real applications(Zhang,1998). As one kind of sequence 
images, the multispectrum images have strong correlation 
among different frame or band. The researches of 
multispectrum image compression focus on lossless 
compression. The lossless compression of 224 bands AVIRIS 
images (Huffman, 1994) obtains the compression ratio of 1.33- 
1.50:1 and the 7 bands Landsat TM images reach 1.7-2.4:]. 
Memen,1994 propose the prediction tree for multispectrum 
image compression with the resumption of neighbour band 
image having the same prediction tree and then the prediction 
tree can be used to remove redundancy among different bands. 
All these compression method to multispectrum images are 
based on stastic and lossless and they can not reach high 
compression ratio to meet the real application. 
  
* Corresponding author: Tel.:0086-27-87686512; Fax: 0086-27-87882661; Email: qqli@whu.edu.cn 
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