DocumentCode
1465464
Title
Multisource Video On-Demand Streaming in Wireless Mesh Networks
Author
Ding, Yi ; Yang, Yi ; Xiao, Liye
Author_Institution
Department of Computer Science and Engineering, Michigan State University, USA
Volume
20
Issue
6
fYear
2012
Firstpage
1800
Lastpage
1813
Abstract
We study the multisource video on-demand (VoD) application in multichannel multiradio wireless mesh networks. When a user initiates a new video request, the application can stream the video not only from the media servers, but also from the peers that have buffered the video. The multipath multisource video on-demand streaming has been applied in wired networks with great success. However, it remains a challenging task in wireless networks due to wireless interference. In this paper, we first focus on the problem of finding the maximum number of high-quality and independent paths from the user to the servers or peers for each VoD request by considering the effect of wireless interference. We formulate it as a constrained maximum independent paths problem and propose two efficient heuristic path discovery algorithms. Based on the multiple paths discovered, we further propose a joint routing and rate allocation algorithm, which minimizes the network congestion caused by the new VoD session. The algorithm is aware of the optimization for both existing and potential VoD sessions in the wireless mesh network. We evaluate our algorithms with real video traces. Simulation results demonstrate that our algorithm not only improves the average video streaming performance over all the coexisting VoD sessions in the network, but also increases the network´s capacity of satisfying more subsequent VoD requests.
Keywords
Interference; Peer to peer computing; Resource management; Servers; Streaming media; Wireless communication; Wireless mesh networks; Multipath routing; multisource video streaming; rate allocation; wireless mesh network;
fLanguage
English
Journal_Title
Networking, IEEE/ACM Transactions on
Publisher
ieee
ISSN
1063-6692
Type
jour
DOI
10.1109/TNET.2012.2188642
Filename
6165678
Link To Document