VIDEO STREAMING OVER SOFTWARE DEFINED NETWORKS WITH SERVER LOAD BALANCING. Yilmaz, S., Tekalp, A. M., & Unluturk, B. D. In 2015 INTERNATIONAL CONFERENCE ON COMPUTING, NETWORKING AND COMMUNICATIONS (ICNC), pages 722-726, 2015. International Conference on Computing, Networking and Communications (ICNC), Anaheim, CA, FEB 16-19, 2015
abstract   bibtex   
Software Defined Networking is a promising Internet architecture to deliver multimedia with end-to-end quality of service (QoS) since it enables optimal dynamic management of network resources and on-demand QoS provisioning by a network operator. We propose a framework for server load-balancing over a single-operator OpenFlow network to improve the quality of service levels of video streaming services. We design a new OpenFlow controller application for dynamic server load balancing by continuous monitoring of load of each video server and dynamic rerouting of clients to alternate servers with lower loads when an overload condition is detected. The proposed controller application is implemented on top of an open source OpenDaylight controller. Our results show that the proposed load-balancer improves the quality of streaming video experienced by end-users, and OpenFlow provides a powerful framework to provide video services with end-to-end quality of service over the future Internet.
@inproceedings{ ISI:000380557400132,
Author = {Yilmaz, Selin and Tekalp, A. Murat and Unluturk, Bige D.},
Book-Group-Author = {{IEEE}},
Title = {{VIDEO STREAMING OVER SOFTWARE DEFINED NETWORKS WITH SERVER LOAD
   BALANCING}},
Booktitle = {{2015 INTERNATIONAL CONFERENCE ON COMPUTING, NETWORKING AND
   COMMUNICATIONS (ICNC)}},
Year = {{2015}},
Pages = {{722-726}},
Note = {{International Conference on Computing, Networking and Communications
   (ICNC), Anaheim, CA, FEB 16-19, 2015}},
Abstract = {{Software Defined Networking is a promising Internet architecture to
   deliver multimedia with end-to-end quality of service (QoS) since it
   enables optimal dynamic management of network resources and on-demand
   QoS provisioning by a network operator. We propose a framework for
   server load-balancing over a single-operator OpenFlow network to improve
   the quality of service levels of video streaming services. We design a
   new OpenFlow controller application for dynamic server load balancing by
   continuous monitoring of load of each video server and dynamic rerouting
   of clients to alternate servers with lower loads when an overload
   condition is detected. The proposed controller application is
   implemented on top of an open source OpenDaylight controller. Our
   results show that the proposed load-balancer improves the quality of
   streaming video experienced by end-users, and OpenFlow provides a
   powerful framework to provide video services with end-to-end quality of
   service over the future Internet.}},
ISBN = {{978-1-4799-6959-3}},
Unique-ID = {{ISI:000380557400132}},
}

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