Resolving the Interference in 5G Millimeter WaveThrough Scheduling Technique In EstimatedChannel

  • Jyoti Dange
  • Dr. R.P. Singh
  • Dr. Vikas Gupta
Keywords: Mimo ,Millimeter Wave Scheudling Interferencece


In this paper we describe the designing of MIMO(Multiple input and multiple output ) system along with scheduling technology which schedule the beam  depending on  SINR ratio keeping it different from other scheduling techniques like RR and PF techniques.  This paper describe the effect of scheduling  to compare different parameter  for the dynamic resource allocation.Now a days communication industry increasing spontaneously In this late century,  use of mobile and cellular services are  very common .In the proposed method of SINR scheduling technique  signals are scheduled according to  their signal to  noise plus interference ratio. We tried to develop the effective scheduling  technique that support the QPSK and implementing lower complexity into MIMO estimated channel. We resolve the inter cell interference  between the base station and destination  which causes a large effect  system capacity. Intercellular interference become more problematic with the decrease in cell size


[1][ NGMN Alliance, NGMN 5G White paper, Version 1, Feb 2015.
[2][ZHANG, Di, et al. “Capacity Analysis of NOMA with mmWave Massive MIMO Systems. IEEE Journal on Selected Areas in Communications, Vol. 35, No. 7, pp. 1606-1618, 2017.
[3] S. Gunnarsson, C. Karnfelt, H. Zirath, R. Kozhuharov, D. Kuylenstierna, C. Fager, M. Ferndahl, B. Hansson, A. Alping, and P. Hallbjorner, \60 ghz single-chip frontend mmics and systems for multi-gb/s wireless communication," Solid-State Circuits,IEEE Journal of, vol. 42, pp. 1143{1157, May 2007.
[4] F. Ellinger, Radio Frequency Integrated Circuits and Technologies. Springer, 2008.
[5]C. Doan, S. Emami, A. Niknejad, and R. Brodersen, \Design of cmos for 60ghz applications," in Solid-State Circuits Conference, 2004. Digest of Technical Papers. ISSCC. 2004 IEEE International, pp. 440{538 Vol.1, Feb 2004.
[6] Q. Spencer and M. Haardt, “Capacity and downlink transmission algorithms for a multi-user MIMO channel,” in Proc. 36th Asilomar Conf. on Signals, Systems, and Computers, Pacific Grove, CA, IEEE Computer Society Press, November 2002.
[7]V. Stankovic and M. Haardt, “Multi-user MIMO downlink precoding for users with multiple antennas,” in Proc. of the 12-th Meeting of the Wireless World Research Forum (WWRF), Toronto, ON, Canada, November 2004. [08] IEEE 802.15 WPAN Task Group 3c (TG3c) Millimeter Wave Alternative PHY:
[8]IEEE 802.11ad Task-Group:
[9] NYU wireless. Avai://nlable at:
[10] G. Li, T. Irnich, and C. Shi, \Coordination context-based spectrum sharing for 5G millimeter-wave networks," in Cognitive Radio Oriented Wire-less Networks and Communications (CROWNCOM), 2014 9th Interna- tional Conference on, June 2014, pp. 32{38.
[11][11] R. Cai, Q. Chen, X. Peng, and D. Liu, \Spatial sharing algorithm in mmwave WPANs with interference sense beamforming mechanism," in Military Communications Conference, MILCOM 2013 - 2013 IEEE, Nov 2013, pp. 163{168.
[12]G. Piro, N. Baldo, and M. Miozzo, \An LTE module for the ns-3 network simulator," in Proceedings of the 4th International ICST Conference on Simulation Tools and Techniques, ser. SIMUTools '11. ICST, Brussels, Belgium, Belgium: ICST (Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering), 2011, pp. 415{422. [Online]. Available: id=2151054.2151129
[13] E. Dahlman, S. Parkvall, J. Skold, and P. Beming., 3G Evolution HSPA and LTE for Mobile Broadband. Academic Press., 2008.
[14] C. Jeong, J. Park, and H. Yu, \Random access in millimeter-wave beam- forming cellular networks: issues and approaches," Communications Magazine, IEEE, vol. 53, no. 1, pp. 180{185, January 2015.
[15] Duplicy, Jonathan & Badic, Biljana & Balraj, Rajarajan & Ghaffar, Rizwan & Horváth, Péter & Kaltenberger, Florian & Knopp, R. & Kovács, István & Nguyen, Hung & Tandur, Deepaknath & Vivier, Guillaume. (2011). MU-MIMO in LTE systems. EURASIP J. Wireless Comm. and Networking. 2011. 10.1155/2011/496763. J. Clerk Maxwell, A Treatise on Electricity and Magnetism, 3rd ed., vol. 2. Oxford: Clarendon, 1892, pp.68-73.
How to Cite
Dange, J., Singh, D. R., & Gupta, D. V. (2020). Resolving the Interference in 5G Millimeter WaveThrough Scheduling Technique In EstimatedChannel. Asian Journal For Convergence In Technology (AJCT), 5(3), 20-23. Retrieved from