DocumentCode
3246060
Title
Joint Capacity, Flow and Rate Allocation for Multiuser Video Streaming Over Wireless Ad-Hoc Networks
Author
Adlakha, S. ; Xiaoqing Zhu ; Girod, B. ; Goldsmith, Andrea J.
Author_Institution
Wireless Syst. Lab., Stanford
fYear
2007
fDate
24-28 June 2007
Firstpage
1747
Lastpage
1753
Abstract
Simultaneous support of multiple delay-critical application sessions such as multiuser video streaming require a paradigm shift in the design of ad-hoc wireless networks. Instead of the conventional layered approach, cross-layer optimization is needed for more efficient resource allocation, across the protocol stack and among multiple users. In this work, we extend our previous effort in joint capacity and flow assignment at the MAC and network layers, to include rate allocation at the application layer of each user. The proposed optimization aims to minimize the tradeoff between encoded video quality of all users versus overall network congestion. Compared to a scheme with oblivious layers, where capacity, flow and video rates are assigned individually, simulation results show significant performance gain of our proposed cross-layer approach, in terms of maximum sustainable rate and quality of the video streams.
Keywords
access protocols; ad hoc networks; channel allocation; optimisation; telecommunication congestion control; video streaming; MAC layer; cross-layer optimization; encoded video quality; floc allocation; flow assignment; joint capacity; multiple delay-critical application sessions; multiuser video streaming; network congestion; protocol stack; rate allocation; resource allocation; wireless ad-hoc networks; Ad hoc networks; Peer to peer computing; Performance gain; Protocols; Resource management; Streaming media; Transmitters; Video compression; Video sharing; Wireless sensor networks;
fLanguage
English
Publisher
ieee
Conference_Titel
Communications, 2007. ICC '07. IEEE International Conference on
Conference_Location
Glasgow
Print_ISBN
1-4244-0353-7
Type
conf
DOI
10.1109/ICC.2007.292
Filename
4288963
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