论文信息 - Quality of Experience in HTTP Adaptive Video Streaming Systems

Quality of Experience in HTTP Adaptive Video Streaming Systems

The main task of HTTP Adaptive Streaming (HAS) is to adapt video quality dynamically under variable network conditions. This is a key feature for multimedia delivery especially when quality of service cannot be granted network-wide and, e.g., throughput may suffer short term fluctuations. Hence, robust bitrate adaptation schemes become crucial in order to improve video quality of experience. The objective, in this context, is to control the filling level of the playback buffer and maximize the quality of the video, while avoiding unnecessary video quality variations. In this paper we study bitrate adaptation algorithms based on Backward-Shifted Coding (BSC), a scalable video coding scheme able to greatly improve video quality of experience. We design bitrate adaptation algorithms that balance video rate smoothness and high network capacity utilization, leveraging both on throughput-based and buffer-based adaptation mechanisms. Extensive simulations using an MPEG/DASH client server application on ns-3 show that the proposed scheme performs remarkably well even under challenging network conditions.

Rachid El Azouzi | Zakaria Ye | Tania Jiménez

[1] Te-Yuan Huang,et al. A buffer-based approach to rate adaptation: evidence from a large video streaming service , 2015, SIGCOMM 2015.

[2] Eitan Altman,et al. Backward-shifted strategies based on SVC for HTTP adaptive video streaming , 2016, 2016 IFIP Networking Conference (IFIP Networking) and Workshops.

[3] Thomas Stockhammer,et al. Dynamic adaptive streaming over HTTP --: standards and design principles , 2011, MMSys.

[4] Bruno Sinopoli,et al. Toward a Principled Framework to Design Dynamic Adaptive Streaming Algorithms over HTTP , 2014, HotNets.

[5] Aggeliki Sgora,et al. FDASH: A Fuzzy-Based MPEG/DASH Adaptation Algorithm , 2016, IEEE Systems Journal.

[6] Rachid El Azouzi,et al. Bitrate adaptation in backward-shifted coding for HTTP adaptive video streaming , 2017, 2017 IEEE International Conference on Communications (ICC).

[7] Ali C. Begen,et al. An experimental evaluation of rate-adaptation algorithms in adaptive streaming over HTTP , 2011, MMSys.

[8] Adam Wolisz,et al. Adaptation algorithm for adaptive streaming over HTTP , 2012, 2012 19th International Packet Video Workshop (PV).

[9] Yong Man Ro,et al. An Evaluation of Bitrate Adaptation Methods for HTTP Live Streaming , 2014, IEEE Journal on Selected Areas in Communications.

[10] Marco Miozzo,et al. An open source product-oriented LTE network simulator based on ns-3 , 2011, MSWiM '11.