Optimal Adaptation Trajectories for Block-Request Adaptive Video Streaming

Abstract

Block-Request Adaptive Streaming (BRAS), in form of its most prominent representative HTTP-Based Adaptive Streaming (HAS), is about to become the dominating technology for video delivery over the Internet. One of the challenges in the development of BRAS clients is the design of mechanisms that dynamically adapt the streamed video quality to network conditions, in order to maximize user's Quality of Experience (QoE). The main contribution of this paper is an approach to calculating optimal adaptation trajectories. This approach not only allows to benchmark the performance of any streaming client, it also provides the possibility to study the impact of the networking environment, and of configuration parameters such as the start-up delay, number of available video representations, etc., on the achievable streaming performance. Since, to the best of our knowledge, there exist no widely accepted or standard approach to measure QoE for BRAS, we alternatively maximize the average video bit-rate, minimize the number of quality switches, and impose a hard constraint on the absence of rebuffering events. Further, we evaluate two HAS clients, Microsoft SmoothStreaming and our own streaming client that supports the recently adopted HAS standard Dynamic Adaptive Streaming over HTTP (DASH), in an indoor Wireless Local Area Network (WLAN) emulated with a high degree of precision. We compare their performance with the optimal client, and explore the configuration parameter space of the DASH client. Finally, we evaluate the impact of start-up delays and number of available video representations on achievable streaming performance.