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A Study on Packet Scheduling Algorithms for Healthcare Contents over Fifth Generation (5G) Mobile Cellular Network

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper models the downlink Fifth Generation (5G) network that supports a flexible frame structure and a shorter Round-Trip Time (RTT) for Hybrid Automatic Repeat Request (HARQ). Moreover, the design of the renowned Time Division Multiple Access (TDMA) packet scheduling algorithms is revised to allow these algorithms to support packet scheduling in the downlink 5G. Simulation results demonstrate that the Proportional Fair provides a comparable performance to the delay–aware Maximum-Largest Weighted Delay First for simultaneously providing the desired transmission reliability of the Guaranteed Bit Rate (GBR) and Non-Guaranteed Bit Rate (Non - GBR) healthcare contents whilst maximizing the downlink 5G performance.
Rocznik
Strony
729--735
Opis fizyczny
Bibliogr. 19 poz., rys., tab., wykr.
Twórcy
  • International Islamic University, Malaysia
Bibliografia
  • [1] F. Qamar, M. H. D. N. Hindia, T. Abbas, K. Bin Dimyati, and I. S. Amiri, “Investigation of QoS Performance Evaluation over 5G Network for Indoor Environment at Millimeter Wave Bands,” International Journal of Electronics and Telecommunication, vol. 65, no. 1, pp. 95–101, 2019.
  • [2] K. I. Pedersen, M. Niparko, J. Steiner, J. Oszmianski, L. Mudolo, and S. R. Khosravirad, “System level analysis of dynamic user-centric scheduling for a flexible 5G design,” IEEE Global Communication Conference GLOBECOM, 2016.
  • [3] B. Soret, P. Mogensen, P. K.I., and A.-T. M.C., “Fundamental tradeoffs among reliability, latency and throughput in cellular networks,” in IEEE Proceeding. Globecom, 2014, pp. 1–5.
  • [4] A. Huang and L. Xie, “SMART for mobile health: A study of scheduling algorithms in full-IP mobile networks,” IEEE Communication Magazine, vol. 53, no. 2, pp. 214–222, 2015.
  • [5] M. Yağcıoğlu and O. Bayat, “Next Generation Dynamic Inter-Cellular Scheduler,” International Journal of Electronics and Telecommunication, vol. 65, no. 3, pp. 441–448, 2019.
  • [6] H. A. M. Ramli, K. Sandrasegaran, A. F. Ismail, S. . Latif, and F. N. M. Isa, “A Simulation Tool for Downlink Long Term Evolution-Advanced,” Research Journal of Applied Sciences, Engineering and Technology, pp. 2032–2041, 2014.
  • [7] H. A. M. Ramli, F. N. M. Isa, A. L. Asnawi, A. Z. Jusoh, and A. W. Azman, “Urgency-Aware Scheduling Algorithm for Downlink Cognitive Long Term Evolution-Advanced,” in 2019 IEEE 89th Vehicular Technology Conference (VTC Spring), 2019, no. 1–5.
  • [8] H. A. M. Ramli, R. Basukala, K. Sandrasegaran, and R. Patachaianand, “Performance of well known packet scheduling algorithms in the downlink 3GPP LTE system,” in 2009 IEEE 9th Malaysia international conference on communications (MICC), 2009, pp. 815–820.
  • [9] K. I. Pedersen, G. Berardinelli, F. Frederiksen, P. Mogensen, and A. Szufarska, “A flexible 5G frame structure design for frequency-division duplex cases,” IEEE Communication Magazine, vol. 54, no. 3, pp. 53–59, 2016.
  • [10] G. Pocovi, B. Soret, K. I. Pedersen, and P. Mogensen, “MAC layer enhancements for ultra-reliable low-latency communications in cellular networks,” IEEE International Conference on Communications Workshops, ICC Workshops. 2017, pp. 1005–1010, 2017.
  • [11] B. S. Tsybakov, “File Transmission over Wireless Fast Fading Downlink,” IEEE Transactions on Information Theory, vol. 48, no. 8, pp. 2323–2337, 2002.
  • [12] E. Dahlman, S. Parkvall, J. Skold, and P. Beming, 3G Evolution: HSPA and LTE for Mobile Broadband. 2007.
  • [13] A. Mathew, “Instability of the Proportional Fair Scheduling Algorithm for HDR,” IEEE Trans. Wireless Communication, vol. 3, no. 5, pp. 1422–1426, 2004.
  • [14] A. Karimi, K. I. Pedersen, N. H. Mahmood, J. Steiner, and P. Mogensen, “5G Centralized Multi-Cell Scheduling for URLLC: Algorithms and System-Level Performance,” IEEE Access, vol. 6, pp. 72253–72262, 2018.
  • [15] A. A. Esswie and K. I. Pedersen, “Null Space Based Preemptive Scheduling for Joint URLLC and eMBB Traffic in 5G Networks,” 2018 IEEE Globecom Workshop, 2019.
  • [16] A. Mathew, K. Kumaran, K. Ramanan, A. Stolyar, and P. Whiting, “Providing Quality of Service over a Shared Wireless Link,” IEEE Communication, vol. 39, no. 2, pp. 150–154, 2001.
  • [17] K. M. S. Huq, S. Mumtaz, F. B. Saghezchi, J. Rodriguez, and R. L. Aguiar, “Energy Efficiency of Downlink Packet Scheduling in CoMP,” Trans. Emerging Telecommunication Technologies, 2013.
  • [18] B. Krasniqi, B. Rexha, and B. Maloku, “Energy efficiency optimization by spectral efficiency maximization in 5G networks,” International Journal of Electronics and Telecommunication, vol. 64, no. 4, pp. 497–503, 2018.
  • [19] W. Mwashita and M. O. Odhiambo, “Base Station Energy Efficiency Improvement for Next Generation Mobile Networks,” International Journal of Electronics and Telecommunication, vol. 63, no. 2, pp. 187–194, 2017.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-55d7e26a-fa3b-4a6e-bcf1-c433d5250696
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