Low delay communication
Versione del 26 Gen 2017 alle 10:08 di SMascolo (Discussione | contributi)

Controlling Queuing Delays for Low Delay Communication

Delay sensitive applications require not only congestion control but also minimization of queuing delays to provide interactivity.

Controlling Queuing Delays for Real-Time Communication
  • G. Carlucci, L. De Cicco, and S. Mascolo
    Controlling Queuing Delays for Real-Time Communication: Interplay of E2E and AQM Algorithms
    ACM SIGCOMM Computer Communication Review, July 2016 (PDF)
  • ACM SIGCOMM Newsletter: https://ccronline.sigcomm.org/2016/controlling-queuing-delays-for-real-time-communication-the-interplay-of-e2e-and-aqm-algorithms// Link]


    • This paper considers the case of real-time communication between web browsers (WebRTC) and we focus on the interplay of an end-to-end delay-based congestion control algorithm with delay-based AQM algorithms, namely CoDel and PIE, and flow queuing schedulers, i.e. SFQ and Fq Codel.

    Ricavato da "https://c3lab.poliba.it/index.php?title=Low_delay_communication&oldid=6448"

    Controlling Queuing Delays for Low Delay Communication[edit]

    Delay sensitive applications require not only congestion control but also minimization of queuing delays to provide interactivity.

    Controlling Queuing Delays for Real-Time Communication
    • G. Carlucci, L. De Cicco, and S. Mascolo
      Controlling Queuing Delays for Real-Time Communication: Interplay of E2E and AQM Algorithms
      ACM SIGCOMM Computer Communication Review, July 2016 (PDF)
  • ACM SIGCOMM Newsletter: https://ccronline.sigcomm.org/2016/controlling-queuing-delays-for-real-time-communication-the-interplay-of-e2e-and-aqm-algorithms// Link]


    • This paper considers the case of real-time communication between web browsers (WebRTC) and we focus on the interplay of an end-to-end delay-based congestion control algorithm with delay-based AQM algorithms, namely CoDel and PIE, and flow queuing schedulers, i.e. SFQ and Fq Codel.