Research Article
A Quality Driven Adaptation Scheme for DASH Streaming (Ad-hoc and Sensor Networks)
@INPROCEEDINGS{10.1109/ChinaCom.2013.6694611, author={Colin Bailey and Xiaohong Peng}, title={A Quality Driven Adaptation Scheme for DASH Streaming (Ad-hoc and Sensor Networks)}, proceedings={8th International Conference on Communications and Networking in China}, publisher={IEEE}, proceedings_a={CHINACOM}, year={2013}, month={11}, keywords={video streaming rate adaptation pause intensity quality of experience}, doi={10.1109/ChinaCom.2013.6694611} }
- Colin Bailey
Xiaohong Peng
Year: 2013
A Quality Driven Adaptation Scheme for DASH Streaming (Ad-hoc and Sensor Networks)
CHINACOM
IEEE
DOI: 10.1109/ChinaCom.2013.6694611
Abstract
In this work we present a quality driven approach to DASH (Dynamic Adaptive Streaming over HTTP) for segment selection in varying network conditions. Current adaption algorithms focus largely on regulating data rates using network layer parameters by selecting the level of quality on offer that can eliminate buffer underrun without considering picture fidelity. In reality, viewers may accept a level of buffer underrun in order to achieve an improved level of picture fidelity. In this case, the conventional DASH algorithms can cause extreme degradation of the picture fidelity when attempting to eliminate buffer underrun with scarce bandwidth availability. Our work is concerned with a quality-aware rate adaption scheme that maximizes the client’s quality of experience in terms of both continuity and fidelity (picture quality). Results show that the scheme proposed can maintain a high level of quality for streaming services, especially at low packet loss rates. It is also shown that by eliminating buffer underrun completely, the PSNR that reflects the picture quality of the video is greatly reduced. Our scheme offers the offset between continuity-based quality and resolution-based quality, which can be used to set threshold values for the level of quality desired by clients with different quality requirements.