DocumentCode
1425032
Title
Dynamic rate scaling of coded digital video for IVOD applications
Author
Wang, Jiansong ; Yu, Sile
Author_Institution
Inst. of TV & Image Inf., Tianjin Univ., China
Volume
44
Issue
3
fYear
1998
fDate
8/1/1998 12:00:00 AM
Firstpage
743
Lastpage
749
Abstract
In this paper, a memory scalable architecture for rate scaling of pre-coded digital video is proposed. In this architecture, the anchor frames are compressed and scaled to fit the size of the memory used as the frame store, and motion compensation is performed in frequency domain. Its advantages include memory saving and memory scalability which make it possible to allocated the memory resource according to the on-line payload of the system in the VOD environment. Therefore, both high efficiency and flexibility can be obtained in respect of the utilization of memory. Another problem addressed in this paper is the rate control of the rate scaling transcoder. As a matter of fact, the content creation encoding and rate scaling can be regarded as a two-pass encoding system. In this paper, a rate control algorithm with look-ahead bit allocation and direct AC DCT bit usage profile tracking is implemented in the rate scaling transcoder based on the results of the first pass encoding
Keywords
data compression; digital communication; digital signal processing chips; discrete cosine transforms; frequency-domain analysis; interactive television; memory architecture; motion compensation; storage management; telecommunication control; tracking; video coding; IVOD applications; VOD environment; anchor frames; coded digital video; content creation encoding; direct AC DCT bit usage profile tracking; dynamic rate scaling; first pass encoding; frequency domain; look-ahead bit allocation; memory resource; memory saving; memory scalability; memory scalable architecture; motion compensation; on-line payload; pre-coded digital video; rate control; rate scaling transcoder; two-pass encoding system; Bit rate; Discrete cosine transforms; Encoding; Frequency domain analysis; Memory architecture; Motion compensation; Payloads; Resource management; Scalability; Video compression;
fLanguage
English
Journal_Title
Consumer Electronics, IEEE Transactions on
Publisher
ieee
ISSN
0098-3063
Type
jour
DOI
10.1109/30.713190
Filename
713190
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