Abstract
The vast application of video streaming over the Internet requires video adaptation to the fluctuations of the available bandwidth, and the rendering capabilities of the receiver device. On the other hand, the available video coding standards are designed for optimum bit rate which makes them susceptible to packet losses. A combination of video adaptation methods and error resilient methods can make the video stream more robust against networking problems. In this paper, an optimization for combining scalable video coding with multiple description coding schemes have been proposed. Our proposed method is capable of creating balanced descriptions with optimum coding efficiency.
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References
Segall, A., Sullivan, G.J.: Spatial scalability. IEEE Transaction on Circuits Systems for Video Technology 17(9), 1121–1135 (2007)
Schwarz, H., Marpe, D., Wiegand, T.: Overview of the scalable video coding extension of the h.264/avc standard. IEEE Transaction on Circuits and Systems for Video 17(9), 1103–1120 (2007)
Hewage, C., Karim, H., Worrall, S., Dogan, S., Kondoz, A.: Comparison of stereo video coding support in mpeg-4 mac, h.264/avc and h.264/svc. In: Proceeding of the 4th Visual Information Engineering Conference, pp. 25–27 (2007)
Choupani, R., Wong, S., Tolun, M.: A drift-reduced hierarchical wavelet coding scheme for scalable video transmissions. In: First International Conference on Advances in Multimedia (MMEDIA), pp. 68–73 (2009)
Choupani, R., Wong, S., Tolun, M.: Multiple description scalable coding for video transmission over unreliable networks. In: 9th International Workshop on Embedded Computer Systems: Architectures, Modeling, and Simulation, Samos-Greece, pp. 58–67 (2009)
Franchi, N., Fumagalli, M., Lancini, R., Tubaro, S.: A space domain approach for multiple description video coding. In: ICIP 2003, vol. 2, pp. 253–256 (2003)
Tillo, T., Olmo, G.: A low complexity pre-post processing multiple description coding for video streaming. In: IEEE International Conference on Information and Communication Technologies, ICTTA 2004 (2004)
Akyol, E., Tekalp, A.M., Civanlar, M.R.: A flexible multiple description coding framework for adaptive peer-to-peer video streaming. IEEE Journal of Selected Topics in Signal Processing 1, 231–245 (2007)
Goyal, V.K.: Multiple description coding: Compression meets the network. IEEE Signal Processing Magazine 18, 74–94 (2001)
Choupani, R., Wong, S., Tolun, M.: Multiple description coding for SNR scalable video transmission over unreliable networks. Multimedia Tools and Applications (June 2012), doi: 10.1007/s11042-012-1150-9
Choupani, R., Wong, S., Tolun, M.: Unbalanced multiple description wavelet coding for scalable video transmission. Journal of Electronic Imaging 21(4), 43006 (2012), doi:10.1117/1.JEI.21.4.043006
Venkataramani, R., Kramer, G., Goyal, V.K.: Multiple description coding with many channels. IEEE Transaction on Information Theory 49, 2106–2114 (2003)
Wang, Y., Reibman, A.R., Shunan, L.: Multiple description coding for video delivery. Proceedings of IEEE 93, 57–70 (2005)
Katata, H., Ito, N., Kusao, H.: Temporal-scalable coding based on image content. IEEE Transaction on Circuits and Systems for Video Technology 7, 52–59 (1997)
Domanski, M., Luczak, A., Mackowiak, S.: Spatial-temporal scalability for mpeg video coding. IEEE Transaction on Circuits and Systems for Video Technology 10, 1088–1093 (2000)
Tan, W., Zakhor, A.: Real-time internet video using error resilient scalable compression and tcp-friendly transport protocol. IEEE Transaction on Multimedia 1(2), 172–186 (1999)
Delp, E.J., Salama, P., Asbun, E., Saenz, M., Shen, K.: Rate scalable image and video compression techniques. In: Proceedings of the 42nd Midwest Symposium on Circuits and Systems, pp. 635–638 (1999)
Mathew, R., Arnold, J.F.: Layered coding using bit-stream decomposition with drift correction’. IEEE Transaction on Circuits and Systems for Video Technology 7, 882–891 (1997)
Wilson, D., Ghanbari, M.: Exploiting interlayer correlation of SNR scalable video. IEEE Transaction on Circuits and Systems for Video Technology 9, 783–797 (1999)
Jiang, H.: Experiment on post-clip FGS enhancement. ISO/IEC JTC1/SC29/WG11, MPEG00/M5826 (2000)
Li, W., Chen, Y.: Experiment result on fine granularity scalability. ISO/IEC JTC1/SC29/WG11, MPEG99/M4473 (1999)
Gharavi, H., Partovi, M.H.: Multilevel video coding and distribution architectures for emerging broadband digital networks. IEEE Transaction on Circuits and Systems for Video Technology 6, 459–469 (1996)
Ghanbari, M.: Two-layer coding of video signals for VBR networks. IEEE Journal of Selected Areas Communications 7, 771–781 (1989)
Puri, A., Chen, T.: Multimedia Systems, Standards, and Networks. Marcel Dekker, New York (2000)
Weiping, L.: Overview of fine granularity scalability in mpeg-4 video standard. IEEE Transaction on Circuits and Systems for Video Technology 11(3), 301–317 (2001)
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Choupani, R., Wong, S., Tolun, M. (2013). Optimized Multiple Description Coding for Temporal Video Scalability. In: Nagamalai, D., Kumar, A., Annamalai, A. (eds) Advances in Computational Science, Engineering and Information Technology. Advances in Intelligent Systems and Computing, vol 225. Springer, Heidelberg. https://doi.org/10.1007/978-3-319-00951-3_17
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DOI: https://doi.org/10.1007/978-3-319-00951-3_17
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