PERFORMANCE ANALYSIS OF PF MAC SCHEDULER UNDER VARYING FEEDBACK DELAY IN LTE AND LTE-A EUTRAN

Ankit Saxena and Ravi Sindal

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References

  1. [1] 3G LTE specifications [Online]. Available: http://www.3gpp.org/dynareport/36-series.htm
  2. [2] S. Schwarz, C. Mehlfuhrer, and M. Rupp, Low complexityapproximate maximum throughput scheduling for LTE, IEEEAsilomarSSC, Asilomar, 2010.
  3. [3] A. Djouama and M.-S. Lim, Reduction of the feedback delay effect on a proportional fair scheduler in LTE downlink using nonlinear, AEU – International Journal of Electronics and Communications, 69(10), October 2015, 1393–1402.
  4. [4] R. Kwan, C. Leung, and J. Zhang, Proportional fair multiuser scheduling in LTE, IEEE Signal Processing Letters, 16(6), June 2009, 461–464.
  5. [5] A. Saxena and R. Sindal, Performance analysis of MAC Scheduler in LTE (EUTRAN) for “ASAR : Resource allocation, Next Generation Mobile Applications, Services and Technologies (NGMAST 2016), Cardiff UK, 2016.
  6. [6] M.T. Kawser, H.M.A.B. Farid, A.R. Hasin, A.M.J. Sadik, and I.K. Razu, Performance comparison between round robin and proportional fair scheduling methods for LTE, International Journal of Information and Electronics Engineering, 2(5), September 2012, 678–681.
  7. [7] S.-B. Lee, I. Pefkianakis, A. Meyerson, S. Xu, and S. Lu, Proportional fair frequency-domain packet scheduling for 3GPP LTE Uplink TR-090001, UCLA CSD Technical Report.
  8. [8] Z. Ma, W. Xiang, H. Long, and W. Wang, Proportionalfair resource partition for LTE-Advanced networks with TypeI relay nodes, in 2011 IEEE International Conference onCommunications (ICC) (IEEE ICC), June 2011.
  9. [9] A. Saxena and R. Sindal, Analysis of cell reselection in evolved UMTS radio access network radio resource management, 2nd IEEE International Conference on Engineering and Technology, Coimbatore, Tamil Nadu, India, 17–18 March 2016.
  10. [10] F. Capozzi, G. Piro, L. Grieco, G. Boggia, and P. Camarda, Downlink Packet Scheduling in LTE cellular networks: Key design issues and a survey, IEEE Communications Surveys and Tutorials, 15(2), 02 May 2013, 678–700.
  11. [11] A. Saxena and R. Sindal, Characterizing the effect ofN-CoMP and CoMP with interference in LTE-A, InternationalConference on Computer Communication and InformaticsICCCI 2016, Coimbatore, Tamil Nadu, India, 2016.
  12. [12] J. Li, Y.Q. Zhao, F.R. Yu, and X. Huang, Queuing analysis of two-hop relay technology in LTE/LTE – A network with unsaturated and asymmetric traffic, IEEE Internet of Things Journal, XX (YY), 2015, 1–8.
  13. [13] C. Khirallah, D. Vukobratovi’c, and J. Thompson, Performance analysis and energy efficiency of random network coding in LTE-Advance, IEEE Transaction on Wireless Communications, 11(12), December 2012, 4275–4285.
  14. [14] B. Guo, W. Cao, A. Tao, and D. Samardzija, LTE/LTE – Asignal compression on the CPRI interface, Bell Labs Technical Journal, 18(2), 2013, 117–133.
  15. [15] Y.B.A.I. Kostanic, Performance evaluation of proportional fairness scheduling in LTE, World Congress on Engineering and Computer Science 2013 Vol II, San Francisco, USA, 23–25 October 2013.
  16. [16] R.K. Jain, D.-M.W. Chiu, and W.R. Hawe, A quantitativemeasure of fairness and discrimination for resource allocation in shared computer system, ACM Transaction on Computer Systems (DEC-TR-301), 26 September 1984, 1–36.

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