Comprehensive protection of data-partitioned video for broadband wireless IPTV streaming

Laith Al-Jobouri; Martin Fleury; Mohammed Ghanbari

doi:10.3233/MIS-2012-0133

Comprehensive protection of data-partitioned video for broadband wireless IPTV streaming

Laith Al-Jobouri
, Martin Fleury^*
, Mohammed Ghanbari

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

This paper examines the threat to video streaming from slow and fast fading, traffic congestion, and channel packet drops. The proposed response is a combination of: rateless channel coding, which is adaptively applied; data-partitioned source coding to exploit prioritized packetization; and duplicate slice provision, which is the focus of the evaluation in this paper. The paper also considers the distribution of intra-refresh macroblocks as a means of avoiding sudden data rate increases. When error bursts occur, this paper shows that duplicate slices are certainly necessary but this provision is more effective for medium quality video than it is for high quality video. The percentage of intra-refresh macroblocks can be low and still reduce the impact of temporal error propagation.

Original language	English
Pages (from-to)	83-105
Number of pages	23
Journal	Mobile Information Systems
Volume	8
Issue number	2
DOIs	https://doi.org/10.3233/MIS-2012-0133
Publication status	Published - 2012
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 11 Sustainable Cities and Communities

Keywords

Data-partitioning
Error resilience
FEC
IPTV
Rateless coding
Redundant packets
Video streaming
WiMAX

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10.3233/MIS-2012-0133

Cite this

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abstract = "This paper examines the threat to video streaming from slow and fast fading, traffic congestion, and channel packet drops. The proposed response is a combination of: rateless channel coding, which is adaptively applied; data-partitioned source coding to exploit prioritized packetization; and duplicate slice provision, which is the focus of the evaluation in this paper. The paper also considers the distribution of intra-refresh macroblocks as a means of avoiding sudden data rate increases. When error bursts occur, this paper shows that duplicate slices are certainly necessary but this provision is more effective for medium quality video than it is for high quality video. The percentage of intra-refresh macroblocks can be low and still reduce the impact of temporal error propagation.",

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AB - This paper examines the threat to video streaming from slow and fast fading, traffic congestion, and channel packet drops. The proposed response is a combination of: rateless channel coding, which is adaptively applied; data-partitioned source coding to exploit prioritized packetization; and duplicate slice provision, which is the focus of the evaluation in this paper. The paper also considers the distribution of intra-refresh macroblocks as a means of avoiding sudden data rate increases. When error bursts occur, this paper shows that duplicate slices are certainly necessary but this provision is more effective for medium quality video than it is for high quality video. The percentage of intra-refresh macroblocks can be low and still reduce the impact of temporal error propagation.

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Comprehensive protection of data-partitioned video for broadband wireless IPTV streaming

Abstract

UN SDGs

Keywords

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