TY - GEN
T1 - Prioritized 3D video distribution over IEEE 802.11e
AU - Hewage, C. T.E.R.
AU - Nasir, S.
AU - Worrall, S. T.
AU - Martini, M. G.
PY - 2010
Y1 - 2010
N2 - The advancement of 3D video technologies enables us to experience 3D video at home, office and public places. In this paper, a prioritization scheme for backward compatible 3D video distribution over Wireless Local Area Networks (WLANs) is proposed for home/office environments. The scheme is designed to work with the colour plus depth representation format. Colour and depth map sequences have different error sensitivities due to their roles in 3D video rendering. As the colour image sequence is directly viewed by 2D/3D users, its quality influences overall perception more than the depth image sequence. Therefore, the proposed prioritization scheme allocates higher priority for coded colour video stream than for the depth map stream in order to improve the perceived quality of 2D/3D video. The proposed solution is designed for IEEE 802.11e, which supports different traffic classes with various priority levels for improved Quality of Service (QoS). Based on the allocated priorities, 3D data streams are mapped to appropriate medium access classes which differ in terms of packet losses and latency. The objective and subjective quality evaluations show that the proposed scheme improves the quality of 2D/3D video while achieving acceptable 3D depth perception.
AB - The advancement of 3D video technologies enables us to experience 3D video at home, office and public places. In this paper, a prioritization scheme for backward compatible 3D video distribution over Wireless Local Area Networks (WLANs) is proposed for home/office environments. The scheme is designed to work with the colour plus depth representation format. Colour and depth map sequences have different error sensitivities due to their roles in 3D video rendering. As the colour image sequence is directly viewed by 2D/3D users, its quality influences overall perception more than the depth image sequence. Therefore, the proposed prioritization scheme allocates higher priority for coded colour video stream than for the depth map stream in order to improve the perceived quality of 2D/3D video. The proposed solution is designed for IEEE 802.11e, which supports different traffic classes with various priority levels for improved Quality of Service (QoS). Based on the allocated priorities, 3D data streams are mapped to appropriate medium access classes which differ in terms of packet losses and latency. The objective and subjective quality evaluations show that the proposed scheme improves the quality of 2D/3D video while achieving acceptable 3D depth perception.
KW - Colour plus depth video
KW - IEEE 802.11e
KW - Perceptual3D video quality
KW - Prioritized video transmission
UR - http://www.scopus.com/inward/record.url?scp=79952904946&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:79952904946
SN - 9781905824182
T3 - 2010 Future Network and Mobile Summit
BT - 2010 Future Network and Mobile Summit
T2 - 2010 Future Network and Mobile Summit
Y2 - 16 June 2010 through 18 June 2010
ER -