Paper Info
Title
A scalable MPEG-4 wavelet-based visual texture compression system with optimized memory organization
Abstract
The realization of new MPEG-4 functionality, applicable to three-dimensional graphics texture compression and image database access over the Internet, is demonstrated on a heterogeneous platform with several unique features. First, applying our system-level design methodologies effectively removes all data transfer and storage overhead that comprises the main bottleneck in the original system description. Second, a first-of-a-kind application specific solution, called Ozone, accelerates the embedded-zero-tree based encoding and is capable of compressing 30 color CIF images per second. The entire application is running on the Ozone coupled to a PC.
Year
DOI
Venue
2003
10.1109/TCSVT.2003.811427
IEEE Trans. Circuits Syst. Video Techn.
Keywords
Field
DocType
original system description,compression system,optimized memory organization,heterogeneous platform,mpeg-4 functionality,color cif image,main bottleneck,first-of-a-kind application,mpeg-4 wavelet-based visual texture,image database access,data transfer,specific solution,entire application,design methodology,indexing terms,layout,image compression,ozone,decoding,data compression,internet,cd roms,graphics,image texture,mpeg 4,wavelet transforms,system level design,wavelet transform
Graphics,Computer vision,Texture compression,Computer science,Image texture,Artificial intelligence,Data compression,MPEG-4,Image compression,Encoding (memory),Scalability
Journal
Volume
Issue
ISSN
13
4
1051-8215
Citations 
PageRank 
References 
2
0.37
13
Authors
8
Name
Order
Citations
PageRank
B. Vanhoof1221.86
L. Nachtergaele210410.40
G. Lafruit365556.91
M. Peon420.37
B. Masschelein520.70
F. Catthoor689783.95
J. Bormans720926.29
I. Bolsens817930.74