A DISTRIBUTED QOS ROUTING ARCHITECTURE FOR SCALABLE VIDEO STREAMING OVER MULTI-DOMAIN OPENFLOW NETWORKS. Egilmez, H. E., Civanlar, S., & Tekalp, A. M. In 2012 IEEE INTERNATIONAL CONFERENCE ON IMAGE PROCESSING (ICIP 2012), of IEEE International Conference on Image Processing ICIP, pages 2237-2240, 2012. Inst Elect & Elect Engineers (IEEE); IEEE Signal Proc Soc. 19th IEEE International Conference on Image Processing (ICIP), Lake Buena Vista, FL, SEP 30-OCT 03, 2012abstract bibtex This paper proposes a new Quality of Service (QoS) optimized routing architecture for video streaming over large-scale multi-domain OpenFlow networks managed by a distributed control plane, where each controller performs optimal routing within its domain and shares summarized intra-domain routing data with other controllers to reduce problem dimensionality for calculating inter-domain routing. We apply the proposed architecture to streaming of scalable (layered) videos, where the base layer routes are dynamically optimized to fulfill a required QoS level, while enhancement layers follow traditional shortest path. We show that the proposed solution approaches the expensive non-scalable globally optimal solution (single controller for the whole network) in terms of received video quality under various congestion scenarios.
@inproceedings{ ISI:000319334902072,
Author = {Egilmez, Hilmi E. and Civanlar, Seyhan and Tekalp, A. Murat},
Book-Group-Author = {{IEEE}},
Title = {{A DISTRIBUTED QOS ROUTING ARCHITECTURE FOR SCALABLE VIDEO STREAMING OVER
MULTI-DOMAIN OPENFLOW NETWORKS}},
Booktitle = {{2012 IEEE INTERNATIONAL CONFERENCE ON IMAGE PROCESSING (ICIP 2012)}},
Series = {{IEEE International Conference on Image Processing ICIP}},
Year = {{2012}},
Pages = {{2237-2240}},
Note = {{19th IEEE International Conference on Image Processing (ICIP), Lake
Buena Vista, FL, SEP 30-OCT 03, 2012}},
Organization = {{Inst Elect \& Elect Engineers (IEEE); IEEE Signal Proc Soc}},
Abstract = {{This paper proposes a new Quality of Service (QoS) optimized routing
architecture for video streaming over large-scale multi-domain OpenFlow
networks managed by a distributed control plane, where each controller
performs optimal routing within its domain and shares summarized
intra-domain routing data with other controllers to reduce problem
dimensionality for calculating inter-domain routing. We apply the
proposed architecture to streaming of scalable (layered) videos, where
the base layer routes are dynamically optimized to fulfill a required
QoS level, while enhancement layers follow traditional shortest path. We
show that the proposed solution approaches the expensive non-scalable
globally optimal solution (single controller for the whole network) in
terms of received video quality under various congestion scenarios.}},
ISSN = {{1522-4880}},
ISBN = {{978-1-4673-2533-2}},
Unique-ID = {{ISI:000319334902072}},
}
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