Quality of experience in multicast hybrid networks: avoiding bandwidth wasting with a double-stage FEC scheme

Quality of experience is becoming an important parameter for estimating the end user perceived video quality. Video coding algorithms are currently increasing the compression performances by exploiting the temporal and spatial correlations of multimedia information. Such a trend is self-defeating in hybrid networks, due to the frequent channel impairments experienced. Here, the authors present a double-stage forward error correction (FEC) scheme to reduce the channel impairments that a multimedia communication undergoes when broadcasting a video stream through an hybrid infrastructure constituted by satellite and terrestrial wireless links. The authors present a detailed statistical description of the terrestrial wireless channel and exploit it to design the parameters for tuning the algorithm. Simulations results show that this approach not only performs better than the error recovery techniques currently used in the literature, but it also experiences a significant reduction in the bandwidth overhead.

[1]  Ali C. Begen,et al.  Not All Packets Are Equal, Part 2: The Impact of Network Packet Loss on Video Quality , 2009, IEEE Internet Computing.

[2]  John W. Woods,et al.  Adaptive two-stage FEC scheme for scalable video transmission over wireless networks , 2009, Signal Process. Image Commun..

[3]  F. Potorti,et al.  Experimental Results with Forward Erasure Correction and Real Video Streaming in Hybrid Wireless Networks , 2005, 2005 2nd International Symposium on Wireless Communication Systems.

[4]  Yifan Yu,et al.  The Effect of Hybrid ARQ Schemes on the TCP Connection over Wireless Link , 2007, 2007 IEEE Wireless Communications and Networking Conference.

[5]  Arun N. Netravali,et al.  Digital Pictures: Representation, Compression and Standards , 1995 .

[6]  John Woods,et al.  QoS arbitration for improving the QoE in multimedia transmission , 2003 .

[7]  P. Barsocchi,et al.  PACKET LOSS IN TCP HYBRID WIRELESS NETWORKS , 2022 .

[8]  Stefano Chessa,et al.  Communications and networking over satellites: SatNEx experimental activities and testbeds , 2009, Int. J. Satell. Commun. Netw..

[9]  Jing Zhu,et al.  Performance modelling of TCP enhancements in terrestrial-satellite hybrid networks , 2006, TNET.

[10]  Ernst W. Biersack,et al.  Performance comparison of centralized versus distributed error recovery for reliable multicast , 2000, TNET.

[11]  Luigi Rizzo,et al.  Effective erasure codes for reliable computer communication protocols , 1997, CCRV.

[12]  M. Bousquet,et al.  SatNEx - the European satellite communications network of excellence , 2004, 2004 IEEE 59th Vehicular Technology Conference. VTC 2004-Spring (IEEE Cat. No.04CH37514).

[13]  Bin Wang,et al.  An improvement to fine granularity scalability based on H.26L , 2004, 2004 IEEE International Symposium on Circuits and Systems (IEEE Cat. No.04CH37512).

[14]  Paolo Barsocchi,et al.  Validation for 802 . 11 b Wireless Channel Measurements , 2006 .

[15]  G. Giambene,et al.  QoS Support in Hybrid WiFi and DVB-S Networks , 2007, 2007 International Workshop on Satellite and Space Communications.

[16]  Maria Angeles Vázquez-Castro,et al.  VoIP cross-layer load control for hybrid satellite-WiMAX networks , 2008, IEEE Wireless Communications.