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Technical Report 2004-05-01
Internetworking and Media Communications Research Laboratories
Department of Computer Science, Kent State University
http://medianet.kent.edu/technicalreports.html
Thesis Title:
SYMBIOTIC RATE CONTROL AND FOCAL AREA
RESOLUTION CONTROL OF MPEG2 TRANSCODER
Qiong Gu
qiong_gu@yahoo.com
Advisor: Dr. Javed I. Khan
Department of Computer Science
Kent State University
May 2004
Abstract:
The Internet is popularly used in all the
fields and all over the world. The abrupt growing of applications and
businesses via the Internet leads to a heavy traffic on it. To solve
network congestion problems has become useful and urgent, and it has
also been one of the most active research topics in this field.
In this work, the Active Video Transcoding (AVT) technologies are
studied to transfer video streams on asymmetric networks and avoid data
blocking or breaking. The AVT sits on the Active Network to enable
implementing dynamic adaptations for a pre-encoded video stream to
match the available bandwidth of heterogeneous networks. As two of the
important AVT technologies, the Symbiotic Rate Control (SRC) and the
Focal Area Resolution Control (FARC) technologies have been studied for
MPEG-2 video stream transferring. Both SRC and FARC choose the
quatization step size of MPEG-2 (mquant) as implant point to
communicate with MPEG-2 and adjust the bit rate to adapt the network
situation dynamically and intelligently. The SRC works on the frame
level while the FARC works on the macro-block levels. The SRC adjusts
the bit rate of transferring video via mquant according to the network
situation to avoid network congestion, it sacrifices video quality
somewhat to improve network traffic in bad situations. As complement to
avoid sacrificing the video quality, the FARC enhances the image
quality in the interesting areas via mquant, such that, the video can
be transmitted and played at a lower bit rate but still having good
image quality in focal areas. The numerical schemes and sample programs
for the SRC and FARC have been developed basis on the MPEG-2 TM5.
Experiments in an imitated active network environment have successfully
demonstrated the functionality of SRC and FARC.
The research results, schemes and codes obtained in this work may be
useful in both guiding the future research activities and implementing
commercial AVTs in the next generation networks--the commercial Active
Networks.
- Thesis [MS Word] [pdf]
- Demo
- Graphics
- Simulation Software [Zip]
- Software Document
- Publications & Technical Reports
- Javad I. Khan , Seung Su Yang,Qiong Gu,Darsan Patel,
Patrick Mail,Oleg Komogortsev,Wansik Oh,Zhong Guo Resource adaptive
netcentric systems: a case study with SONET - a self-organizing network
embedded transcoder, International Multimedia Conference; Vol. 9
archive
Proceedings of the ninth ACM international conference on Multimedia
,Pages: 617 - 620
- Javed I. Khan, Raid Zaghal, Qiong Gu: Symbiotic
Streaming of Elastic Traffic on Interactive Transport. ISCC 2003:
1435-1440
- Javed I. Khan, Seung Su Yang, Darsan Patel, Oleg
Komogortsev, Wansik Oh, Zhong Guo, Qiong Gu, Patrick Mail: Resource
Adaptive Netcentric Systems on Active Network: A Self-Organizing Video
Stream that Auto Morphs Itself While in Transit Via a Quasi-Active
Network. DANCE 2002: 427-
- Javed I. Khan, Qiong Gu: Network Aware Video
Transcoding for Symbiotic Rate Adaptation on Interactive Transport. NCA
2001: 201-213
- Other Related Links
Last Modified: JUNE 2006.