491 research outputs found
Modelling video rate evolution in adaptive bitrate selection
Adaptive bitrate selection adjusts the quality of HTTP streaming video to a changing context. A number of different schemes have been proposed that use buffer state in the selection of the appropriate video rate. However, models describing the relationship between video quality levels and buffer occupancy are mostly based on heuristics, which often results in unstable and/or suboptimal quality. In this paper, we present a QoE-aware video rate evolution model based on buffer state changes. The scheme is evaluated within a real world Internet environment, where it is shown to improve the stability of the video rate. Up to 27% gain in average video rate can be achieved compared to the baseline ABR. The average throughput utilisation at a steady-state reaches 100% in some of the investigated scenarios
BOLA360: Near-optimal View and Bitrate Adaptation for 360-degree Video Streaming
Recent advances in omnidirectional cameras and AR/VR headsets have spurred
the adoption of 360-degree videos that are widely believed to be the future of
online video streaming. 360-degree videos allow users to wear a head-mounted
display (HMD) and experience the video as if they are physically present in the
scene. Streaming high-quality 360-degree videos at scale is an unsolved problem
that is more challenging than traditional (2D) video delivery. The data rate
required to stream 360-degree videos is an order of magnitude more than
traditional videos. Further, the penalty for rebuffering events where the video
freezes or displays a blank screen is more severe as it may cause
cybersickness. We propose an online adaptive bitrate (ABR) algorithm for
360-degree videos called BOLA360 that runs inside the client's video player and
orchestrates the download of video segments from the server so as to maximize
the quality-of-experience (QoE) of the user. BOLA360 conserves bandwidth by
downloading only those video segments that are likely to fall within the
field-of-view (FOV) of the user. In addition, BOLA360 continually adapts the
bitrate of the downloaded video segments so as to enable a smooth playback
without rebuffering. We prove that BOLA360 is near-optimal with respect to an
optimal offline algorithm that maximizes QoE. Further, we evaluate BOLA360 on a
wide range of network and user head movement profiles and show that it provides
to more QoE than state-of-the-art algorithms. While ABR
algorithms for traditional (2D) videos have been well-studied over the last
decade, our work is the first ABR algorithm for 360-degree videos with both
theoretical and empirical guarantees on its performance.Comment: 25 page
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