M. Stiemerling, and S. Kiesel. Proceedings of the 19th International Conference on Computer Communications and Networks (ICCCN 2010), page 1--7. Zurich, Switzerland, (August 2010)
DOI: 10.1109/ICCCN.2010.5560112
Abstract
Near-live P2P video streaming is already popular among
consumers, but typically this type of application is bound
to fixed Internet access, as streaming requires a sustained
bitrate over time and is less tolerant to environments
with volatile throughput rates. For users moving at speeds
larger than walking speed, P2P video streaming is hardly
possible, as the achievable throughput for a single peer
is insufficient to obtain the video. When multiple peers
are interested in the same video stream and they are
moving along the same path, they could cooperatively
retrieve chunks, instead of acting independently. The
participating peers will need to bundle their achievable
throughput and coordinate the chunk retrieval. We present
such a cooperative P2P video streaming system, introducing
a new scheduler and develop a light-weight throughput
estimator. 3G cellular link measurements and a simulation
study demonstrate the feasibility of our approach for a
train scenario.
%0 Conference Paper
%1 ki-2010-0020
%A Stiemerling, Martin
%A Kiesel, Sebastian
%B Proceedings of the 19th International Conference on Computer Communications and Networks (ICCCN 2010)
%C Zurich, Switzerland
%D 2010
%K imported myown tikauthor:kiesel
%P 1--7
%R 10.1109/ICCCN.2010.5560112
%T Cooperative P2P Video Streaming for Mobile Peers
%X Near-live P2P video streaming is already popular among
consumers, but typically this type of application is bound
to fixed Internet access, as streaming requires a sustained
bitrate over time and is less tolerant to environments
with volatile throughput rates. For users moving at speeds
larger than walking speed, P2P video streaming is hardly
possible, as the achievable throughput for a single peer
is insufficient to obtain the video. When multiple peers
are interested in the same video stream and they are
moving along the same path, they could cooperatively
retrieve chunks, instead of acting independently. The
participating peers will need to bundle their achievable
throughput and coordinate the chunk retrieval. We present
such a cooperative P2P video streaming system, introducing
a new scheduler and develop a light-weight throughput
estimator. 3G cellular link measurements and a simulation
study demonstrate the feasibility of our approach for a
train scenario.
@inproceedings{ki-2010-0020,
abstract = {Near-live P2P video streaming is already popular among
consumers, but typically this type of application is bound
to fixed Internet access, as streaming requires a sustained
bitrate over time and is less tolerant to environments
with volatile throughput rates. For users moving at speeds
larger than walking speed, P2P video streaming is hardly
possible, as the achievable throughput for a single peer
is insufficient to obtain the video. When multiple peers
are interested in the same video stream and they are
moving along the same path, they could cooperatively
retrieve chunks, instead of acting independently. The
participating peers will need to bundle their achievable
throughput and coordinate the chunk retrieval. We present
such a cooperative P2P video streaming system, introducing
a new scheduler and develop a light-weight throughput
estimator. 3G cellular link measurements and a simulation
study demonstrate the feasibility of our approach for a
train scenario.},
added-at = {2023-11-17T18:29:11.000+0100},
address = {Zurich, Switzerland},
author = {Stiemerling, Martin and Kiesel, Sebastian},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/213c290bffaf7e5175e12e956c1ec2303/skiesel},
booktitle = {Proceedings of the 19th International Conference on Computer Communications and Networks (ICCCN 2010)},
doi = {10.1109/ICCCN.2010.5560112},
interhash = {9ee5078ab5c31954e8cf80d087bccabf},
intrahash = {13c290bffaf7e5175e12e956c1ec2303},
issn = {1095-2055},
keywords = {imported myown tikauthor:kiesel},
month = aug,
pages = {1--7},
pdf = {http://www.net.informatik.uni-goettingen.de/publications/1695/MobileP2P-ICCCN10.pdf},
timestamp = {2023-11-17T18:29:11.000+0100},
title = {{Cooperative P2P Video Streaming for Mobile Peers}},
year = 2010
}