DocumentCode
3469148
Title
Double feedback streaming agent for real-time delivery of media over 3G wireless networks
Author
Cheung, Gene ; Tan, Wai-tian ; Yoshimura, Takeshi
Volume
3
fYear
2003
fDate
20-20 March 2003
Firstpage
2102
Abstract
A network agent located at the junction of wired and wireless networks can provide additional feedback information to streaming servers to supplement feedback from clients. Specifically, it has been shown that feedbacks from the network agent have lower latency, and can be used in conjunction with client feedbacks to effect proper congestion control. In this work, we propose the double feedback streaming agent (DFSA) which further allows the detection of discrepancies in the transmission constraints of the wired and wireless networks. By working together with the streaming server and client, DFSA reduce overall packet losses by exploiting the excess capacity of the path with more capacity. We show how DFSA can be used to support three modes of operation tailored for different delay requirements of streaming applications. Simulation results show noticeable improvement of media quality using DFSA over existing streaming systems.
Keywords
3G mobile communication; client-server systems; feedback; mobile computing; multimedia communication; packet radio networks; quality of service; real-time systems; telecommunication congestion control; 3G wireless networks; client feedback; congestion control; delay requirements; different client delay requirements; double feedback streaming agent; generalized agent architecture; media quality; network agent; overall packet loss reduction; real time media delivery; streaming servers; transmission constraints; wired networks; Bandwidth; Condition monitoring; Delay; Feedback; Laboratories; Network servers; Next generation networking; Statistics; Streaming media; Wireless networks;
fLanguage
English
Publisher
ieee
Conference_Titel
Wireless Communications and Networking, 2003. WCNC 2003. 2003 IEEE
Conference_Location
New Orleans, LA, USA
ISSN
1525-3511
Print_ISBN
0-7803-7700-1
Type
conf
DOI
10.1109/WCNC.2003.1200711
Filename
1200711
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