Application-layer rate-adaptive multicast video streaming over 802.11 for mobile devices

  • Raheeb Muzaffar, Evsen Yanmaz, Christian Bettstetter, and Andrea Cavallaro. Application-layer rate-adaptive multicast video streaming over 802.11 for mobile devices. In Proceedings of the 24th ACM international conference on Multimedia, pages 506-510, Amsterdam, The Netherlands, 2016. doi:10.1145/2964284.2967272
    [BibTeX] [Abstract]

    Multicast video streaming over IEEE 802.11 is unreliable due to the lack of feedback from receivers. High data rates and variable link conditions require feedback from the receivers for link estimation to improve reliability and rate adaptation accordingly. In this paper, we validate on a test platform an application-layer rate-adaptive video multicast streaming framework using an 802.11 ad-hoc network applicable for mobile senders and receivers. Experimental results serve as a proof of concept and show the performance in terms of goodput, delay, packet loss, and received video quality.

    @InProceedings{2016-10-MUZAFFAR,
    title = {{Application-layer rate-adaptive multicast video streaming over 802.11 for mobile devices}},
    author = {Raheeb Muzaffar and Evsen Yanmaz and Christian Bettstetter and Andrea Cavallaro},
    booktitle = {{Proceedings of the 24th ACM international conference on Multimedia}},
    address= {Amsterdam, The Netherlands},
    date = {2016-10-15/2016-10-19},
    year = {2016},
    pages = {506-510},
    doi = {10.1145/2964284.2967272},
    abstract = {Multicast video streaming over IEEE 802.11 is unreliable due to the lack of feedback from receivers. High data rates and variable link conditions require feedback from the receivers for link estimation to improve reliability and rate adaptation accordingly. In this paper, we validate on a test platform an application-layer rate-adaptive video multicast streaming framework using an 802.11 ad-hoc network applicable for mobile senders and receivers. Experimental results serve as a proof of concept and show the performance in terms of goodput, delay, packet loss, and received video quality.}
    }

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