HTTP/2-Based Adaptive Streaming of HEVC Video Over 4G/LTE Networks

HTTP/2-Based Adaptive Streaming of HEVC Video Over 4G/LTE Networks

In HTTP Adaptive Streaming, video content is temporally divided into multiple segments, each encoded at several quality levels. The client can adapt the requested video quality to network changes, generally resulting in a smoother playback. Unfortunately, live streaming solutions still often suffer...

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Bibliographic Details
Published in:IEEE communications letters Vol. 20; no. 11; pp. 2177 - 2180
Main Authors: van der Hooft, Jeroen, Petrangeli, Stefano, Wauters, Tim, Huysegems, Rafael, Alface, Patrice Rondao, Bostoen, Tom, De Turck, Filip
Format: Journal Article
Language:English
Published: New York IEEE 01-11-2016
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
4G mobile communication
4G/LTE
Bandwidth
Bit rate
dash
Delays
Encoding
Freeze time
H.265/HEVC
HTTP adaptive streaming
HTTP/2
quality of experience
Segments
server push
Servers
Streaming media
Throughput
Video compression
Video transmission
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Summary:In HTTP Adaptive Streaming, video content is temporally divided into multiple segments, each encoded at several quality levels. The client can adapt the requested video quality to network changes, generally resulting in a smoother playback. Unfortunately, live streaming solutions still often suffer from playout freezes and a large end-to-end delay. By reducing the segment duration, the client can use a smaller temporal buffer and respond even faster to network changes. However, since segments are requested subsequently, this approach is susceptible to high round-trip times. In this letter, we discuss the merits of an HTTP/2 push-based approach. We present the details of a measurement study on the available bandwidth in real 4G/LTE networks, and analyze the induced bit-rate overhead for HEVC-encoded video segments with a sub-second duration. Through an extensive evaluation with the generated video content, we show that the proposed approach results in a higher video quality (+7.5%) and a lower freeze time (-50.4%), and allows to reduce the live delay compared with traditional solutions over HTTP/1.1.
ISSN:1089-7798
1558-2558
DOI:10.1109/LCOMM.2016.2601087