Abstract
CBR traffic models are commonly used in simulations to evaluate the performance of the adaptive video multicast protocols. However, more accurate traffic models, such as MPEG-4 FGS models, are necessary to simulate actual video traffic in performance evaluation of adaptive video multicast protocols. We first introduce Markov chain modulated first order autoregressive process to model the statistical properties of FGS layered video traffic, and then implement a layered rate control method based on the proposed FGS traffic model in NS-2. We then design three simulation experiments on RLM, each one adopting the proposed rate control method based on FGS model and one of three typical CBR layered traffic models respectively. The experiments reveal that the result of our scheme differs greatly from those of CBR schemes. Since our FGS model is more accurate than the CBR models, we suggest that layered rate control method based on FGS traffic model is more desirable in the simulations of adaptive video multicast protocols to get more fair and accurate evaluation results.
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McCanne, S., Jacobson, V., Vetterli, M.: Receiver-driven layered multicast. In: Proceedings of ACM SIGCOMM 1996, Stanford, CA, September 1996, p. 27 (1996)
Byers, J., Frumin, M., Horn, G., Lubby, M.: FLID-DL: Congestion Control for Layered Multicast. In: Proc.ACM Sigcomm 1994, London, UK, September 1994, pp. 58–67 (1994)
Legout, A.: PLM: Fast convergence for cumulative layered multicast transmission scheme. In: Proceedings of ACM SIGMETRICS 2000 (2000)
Liu, J., Li, B., Zhang, Y.-Q.: A Hybrid Adaptation Protocol for TCP-Friendly Layered Multicast and Its Optimal Rate Allocation. In: Proc. Ann. Joint Conf. IEEE Computer and Comm. Soc (Infocom 2002), pp. 1520–1530. IEEE Press, Los Alamitos (2002)
Hui, W., Jun, Z., Zhihong, J., et al.: ALM: a Novel Adaptive Layer Mapping Algorithm for Intra-Session bandwidth allocation in Layered Video Multicasts. In: Proc. of 8th IASTED International Conference on Internet and Multimedia systems and Applications, pp. 124–130 (2004)
Liu, J., Li, B., Zhang, Y.-Q.: Adaptive Video Multicast over the Internet. IEEE Multimedia 10(1), 22–31 (2003)
Matrawy, A., Lambadaris, I., Huang, C.: On Layered Video Fairness on IP Networks. In: Proc. of IEEE Global Communications Conference, IEEE GLOBECOM 2001, San Antonio, TX (November 2001)
Izquierdo, I.R.: A Survey of Statistical Source Models for Variable Bit-Rate Compressed Video. Multimedia System 7, 199–213 (1999)
Bajaj, S., Breslau, L., Shenker, S.: Uniform Versus Priority Dropping for Layered Video. In: Proc. ACM Sigcomm Conf., September 1998, pp. 131–143. ACM Press, New York (1998)
Matrawy, A., Lambadaris, I., Huang, C.: MPEG 4 Traffic Modeling Using The Transform Expand Sample Methodology. In: Proc. of the 4th IEEE International Workshop on Networked Appliances, IWNA4, Gaithersburg, MD (January 2002)
Wei, H., Hui, W.: A Video Traffic Model for MPEG-4 FGS. Chinese Computer Simulation 3, 35–40 (2004)
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© 2005 Springer-Verlag Berlin Heidelberg
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Wang, H., Sha, J., Sun, X., Tao, J., He, W. (2005). MPEG-4 FGS Video Traffic Model and Its Application in Simulations for Layered Video Multicast. In: Ho, YS., Kim, HJ. (eds) Advances in Multimedia Information Processing - PCM 2005. PCM 2005. Lecture Notes in Computer Science, vol 3768. Springer, Berlin, Heidelberg. https://doi.org/10.1007/11582267_8
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DOI: https://doi.org/10.1007/11582267_8
Publisher Name: Springer, Berlin, Heidelberg
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