SENSEI: Aligning Video Streaming Quality with Dynamic User Sensitivity

Abstract

This paper aims to improve video streaming by leveraging a simple observation—users are more sensitive to low qualityin certain parts of a video than in others. For instance, re-buffering during key moments of a sports video (e.g.,beforea goal is scored) is more annoying than rebuffering during normal gameplay. Such dynamic quality sensitivity, however,is rarely captured by current approaches, which predict QoE(quality-of-experience) using one-size-fits-all heuristics thatare too simplistic to understand the nuances of video content,or that are biased towards the video content they are trained on (in the case of learned heuristics).The problem is that none of these approaches know the true dynamic quality sensitivity of a video they have never seen before. Therefore, instead of proposing yet another heuristic, wetake a different approach: we run a separate crowdsourcing experiment for each videoto derive users' quality sensitivity at different parts of the video. Of course, the cost of doing this at scale can be prohibitive, but we show that careful experiment design combined with a suite of pruning techniquescan make the cost negligible compared to how much content providers invest in content generation and distribution. For example with a budget of just $31.4/minute video, we can predict QoE up to 37.1% more accurately than state-of-the-artQoE models.Our ability to accurately profile time-varying user sensitiv-ity inspires a new approach to video streaming—dynamically aligning higher (lower) quality with higher (lower) sensitivity periods. We present a new video streaming system called SENSEI that incorporates dynamic quality sensitivity into existing quality adaptation algorithms. We apply SENSEI to two state-of-the-art adaptation algorithms, one rule-based andone based on deep reinforcement learning. SENSEI can take seemingly unusual actions: e.g., lowering bitrate (or initiating a rebuffering event) even when bandwidth is sufficient so that it can maintain a higher bitrate without rebuffering when quality sensitivity becomes higher in the near future.Compared to state-of-the-art approaches, SENSEI improves QoE by 15.1% or achieves the same QoE with 26.8% less bandwidth on average.