S. Sharafeddine
[1] K. Lindberger, Balancing quality of service, pricing and utilisation in mutliservice networks with stream and elastic traffic, 16th International Teletraffic Congress (ITC’16), Edinburgh, UK, 1999. [2] Y. Miyao, Bandwidth allocation in ATM networks that guarantee multiple QOS requirements, IEEE International Conference on Communications (ICC), Geneva, 1993. [3] A.I. Elwalid & D. Mitra, Effective bandwidth of bursty, variable rate sources for admission control to B-ISDN, IEEE International Conference on Communications (ICC), Geneva, 1993. [4] J. Soldatos, E. Vayias, P. Stathopoulos, & N. Mitrou, Enforcing effective rates for packet-level QoS control in IP networks: Theory and validation based on real traffic data, Telecommunications Systems, 27, 2004, 9–31. [5] R. van de Meent & M. Mandjes, Evaluation of user-oriented and black-box traffic models for link provisioning, Next Generation Internet Networks, Rome, 2005. [6] M. Izquierdo & D. Reeves, A survey of statistical source models for variable-bit-rate compressed video, Multimedia Systems, 7, 1999, 199–213. [7] M. Krunz & A. Makowski, Modeling video traffic using M/G/∞ input processes: A compromise between Markovian and LRD models, IEEE Journal on Selected Areas in Communications, 16, 1998, 733–748. [8] N. Ansari, H. Liu, & Y. Shi, On modeling MPEG video traffics, On Modeling MPEG Video Traffics, 48 (4), 2002, 337–347. [9] M. Garrett & W. Willinger, Analysis, modeling, and generation of self-similar VBR video traffic, ACM SIGCOMM, London, UK, 1994. [10] C. Huang, M. Devetsikiotis, I. Lambadaris, & A. Kaye, Modeling and simulation of self-similar variable bit rate compressed video: A unified approach, ACM SIGCOMM, Palo Alto, CA, 1996. [11] C. López, M. Veiga, R. Rodríguez, A. Suárez, & D. Teijeiro, Effect of the generation of MPEG-frames within a GOP on queuing performance, 18th International Symposium on Computer and Information Sciences, Antalya, Turkey, 2003. [12] P. Seeling, F.H.P. Fitzek, & M. Reisslein, Eds., Video Traces For Network Performance Evaluation – A Comprehensive Overview and Guide on Video Traces and Their Utilization in Networking Research, ISBN 978-1-4020-5565-2. Springer, Dec. 2006. [13] E. Fulp & D. Reeves, Optimal provisioning and pricing of differentiated services using QoS class promotion, Advanced Internet Charging and QoS Technology (ICQT), Vienna, Austria, 2001. [14] B. Maglaris, D. Anastassiou, P. Sen, G. Karlson, & J. Robbins, Performance models for statistical multiplexing in packet video communications, IEEE Transactions on Communications, 36, 1988, 834–843. [15] G. Haßlinger & P. Takes, Real time video traffic characteristics and dimensioning regarding QoS demands, 18th International Teletraffic Congress (ITC’18), Berlin, Germany, 2003. [16] G. Haßlinger, Quality-of-service analysis for statistical multiplexing with Gaussian distributed and autoregressive input, Telecommunication Systems, 16 (3), 2001, 315–334. [17] G. Haßlinger & M. Fiedler, Why buffers in switching do not essentially improve QoS: An analytical case study for on/off source traffic, Internet Performance and Control of Network Systems, SPIE, 4865, 2002. [18] S. Sharafeddine & Z. Dawy, Capacity assignment for video traffic in multiservice IP networks with statistical QoS guarantees, 10th IEEE Symposium on Computers and Communications (ISCC), Cartagena, Spain, 2005. [19] J. Glasmann, Resourcemanagement für echtzeitverkehre in intranets. Dissertation, Institute for Communication Networks, Technische Universität München, Munich, Germany, 2003. [20] L. Untereiner, Video traffic modeling and dimensioning in IP networks, Diploma Thesis, Institute for Communication Networks, Technische Universität München, Munich, Germany, 2004.
Important Links:
Go Back
