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Dimensioning of the LTE access network

Published: 01 April 2013 Publication History

Abstract

This paper proposes efficient analytical models to dimension the necessary transport bandwidths for the Long Term Evolution (LTE) access network satisfying the QoS targets required by different services. In this paper, we consider two major traffic types: elastic traffic and real time traffic. For each type of traffic, individual dimensioning models are proposed for both the S1 interface and the X2 interface. For elastic traffic the dimensioning models are based on the Processor Sharing models; while for real time traffic the dimensioning models are based on the fundamental queuing models. For validating these analytical dimensioning models, a developed LTE system simulation model is used. Extensive simulations are performed for various traffic and network scenarios. The analytical results derived from the proposed dimensioning models are compared with the simulation results. The presented results demonstrate that the proposed analytical models can appropriately estimate the required performances for different service classes and priorities. Hence they are suitable to be used for dimensioning of the LTE access network with different traffic and network conditions.

References

[1]
Blake, S., Black, D., Carlson, M., Davies, E., Wang, Z., & Weiss, W. An architecture for differentiated services. Request for Comments (Informational) 2475, Internet Engineering Task Force, December 1998.
[2]
Demers, S. Keshav, & Shenker, S. (Oct. 1990). Analysis and simulation of a fair Queueing algorithm. J. Internetw. Res. Exp. 3---26; also in Proc. ACM SIGCOMM'89, pp. 3---12.
[3]
Lindberger, K. (1999). Balancing quality of service, pricing and utilisation in multiservice networks with stream and elastic traffic. In Proc. of the international teletraffic congress (ITC 16), Edinburgh, Scotland.
[4]
Riedl, A., Bauschert, T., Perske, M., & Probst, A. (2000). Investigation of the M/G/R processor sharing model for dimensioning of IP access networks with elastic traffic. In First Polish-German teletraffic symposium PGTS 2000.
[5]
Li, X., Schelb, R., Görg, C., & Timm-Giel, A. (2005). Dimensioning of UTRAN IUB links for elastic Internet traffic. In Proc. of the 19th international teletraffic congress, Beijing, Sep. 2005.
[6]
Li, X., Schelb, R., Görg, C., & Timm-Giel, A. (2006). Dimensioning of UTRAN IUB links for elastic Internet traffic with multiple radio bearers. In Proc. of the 13th GI/ITG conference measuring, modelling and evaluation of computer and communication systems, Nürnberg.
[7]
Li, X., Bigos, W., Goerg, C., Timm-Giel, A., & Klug, A. (2008). Dimensioning of the IP-based UMTS radio access network with DiffServ QoS support. In Proc. the 19th ITC specialist seminar on network usage and traffic (ITC SS 19). Technische Universität Berlin, October, 2008.
[8]
Li, X., Toseef, U., Weerawardane, T., Bigos, W., Dulas, D., Goerg, C., Timm-Giel, A., & Klug, A. (2010). Dimensioning of the LTE S1 interface. In Proc. of the 3rd joint IFIP wireless mobile networking conference (WMNC'2010), Budapest, Oct. 2010.
[9]
Li, X., Toseef, U., Weerawardane, T., Bigos, W., Dulas, D., Goerg, C., Timm-Giel, A., & Klug, A. (2010). Dimensioning of the LTE access transport network for elastic Internet traffic. In Proc. of the 6th IEEE WiMob 2010 conference, Canada, Oct. 2010.
[10]
Kelly, F. (2001). Mathematical modeling of the Internet. In Mathematics Unlimited--2001 (pp. 685---702). Berlin: Springer.

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  • (2016)Blocking probabilities of elastic and adaptive calls in the Erlang multirate loss model under the threshold policyTelecommunications Systems10.1007/s11235-015-0056-z62:1(245-262)Online publication date: 1-May-2016
  • (2016)Quality assessment and usage behavior of a mobile voice-over-IP serviceTelecommunications Systems10.1007/s11235-014-9961-961:3(417-432)Online publication date: 1-Mar-2016
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Information & Contributors

Information

Published In

cover image Telecommunications Systems
Telecommunications Systems  Volume 52, Issue 4
April 2013
1001 pages

Publisher

Kluwer Academic Publishers

United States

Publication History

Published: 01 April 2013

Author Tags

  1. Dimensioning
  2. Handover
  3. LTE access network
  4. QoS
  5. S1 Interface
  6. X2 Interface

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View all
  • (2019)Congestion probabilities in the X2 link of LTE networksTelecommunications Systems10.1007/s11235-018-00537-571:4(585-599)Online publication date: 1-Aug-2019
  • (2016)Blocking probabilities of elastic and adaptive calls in the Erlang multirate loss model under the threshold policyTelecommunications Systems10.1007/s11235-015-0056-z62:1(245-262)Online publication date: 1-May-2016
  • (2016)Quality assessment and usage behavior of a mobile voice-over-IP serviceTelecommunications Systems10.1007/s11235-014-9961-961:3(417-432)Online publication date: 1-Mar-2016
  • (2015)Optically reconfigurable Sierpinski fractal antennas for RoF based communication systemsTelecommunications Systems10.1007/s11235-014-9905-459:4(453-461)Online publication date: 1-Aug-2015

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