Research Article

Evaluate and Analysis Multimedia Traffic with QoS-Based Multiple Access Protocol for Wireless Communication

Hong Yu
Fitchburg State University, USA.
* Corresponding author
Elijah Perron
Fitchburg State University, USA.
DOI icon 10.24018/ejeng.2022.7.6.2919

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Submitted 2022-10-21
Published 2022-11-28

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Table of Contents

Article Main Content

In the past decade, billions of devices and smartphones as terminals have been connected and managed by the wireless networks. Multimedia traffics in high performance wireless network utilities work on QoS-base multiple access protocols, specifically in 5G wireless networks or Industry 4.0. These protocols can enhance utility and effectiveness by increasing throughput, reducing delay, and lessening the loss ratio while the terminals communicate with other terminals in the wireless networks. In this paper, we will present a novel multiple-access protocol in the wireless network and evaluate and analyze the performances of multimedia traffic on the wireless network. Furthermore, administrators or IT regulators can use the protocol as an opportunity to create healthier network environments, which will definitely encourage continuing investment in wireless network and next-generation technology.

Keywords: Loss Ratio, Multimedia Traffic, Multiple Access, QoS Delay, Terminals, Throughput, Wireless Network.

References

  1. Yunlong C, Zhijin Q, Fangyu C, Geoffrey YL, Julie M. Modulation and Multiple Access for 5G Networks. IEEE Communications Surveys. & Tutorials. 2018; 20(1). DOI:10.1109/COMST.2017.276698.
     Google Scholar
  2. Tomislav S, Toni J, 5G Terminals with Multi-Streaming Features for Real-Time Mobile Broadband Applications. RadioEngineering. 2017 Jun; 26(2): 470-478.
     Google Scholar
  3. Yuanwei L, Zhijin Q, Maged E, Zhiguo D, Arumugam N, Lajos H, Non-Orthogonal Multiple Access for 5G and Beyond. Proceedings of the IEEE. 2017 December;105(12): 2347-2381.
     Google Scholar
  4. Saber M, Nader A, Mohamed N, On the Multiple Access Technique for 5G Wireless Networks. International Journal of Scientific & Engineering Research. 2018 September; 9(9).
     Google Scholar
  5. Linglong D, Zhiguo D, Zhaocheng W, Sheng C, A survey of Non-Orthogonal Multiple Access for 5G. IEEE Communications Surveys & Tutorials. 2018 May; 20(3): 2294-2323.
     Google Scholar
  6. Karthik KV, Venu N, A Survey on future generation wireless communications-5G: Multiple Access Techniques, Physical Layer Security, Beamforming Approach. Journal of Information and Computational Science. 2021 October; 11(9): 440-474.
     Google Scholar
  7. Nurul HM, Nuno P, Thomas J, Elgaard P, On the performance of one stage massive random access protocols in 5G systems. 2016 9th International Symposium on Turbo Codes and Iterative Information Processing (ISTC), 2016 September.
     Google Scholar
  8. Zhiguo D, Yuanwei L, Jinho C, Qi S, Maged E, Chih-Lin I, Vincnet H.P, Application of Non-Orthogonal Multiple Access in LTE and 5G Networks. IEEE Communications Magazine. 2015 November; 5(2): DOI:10.1109/MCOM.2017.1500657CM.
     Google Scholar
  9. Asim A, Boon-Chong S, Muhannad AH, Xuejun Li, A Survey on Application of Non-Orthogonal Multiple Access to Different Wireless Networks. Electrons. 2019 November; 8(11): 1355
     Google Scholar
  10. Kashif F, Khalid R, Securing 4G/5G wireless network. Computer Fraud & Security. 2015 May. DOI:10.1016/S1361-3723(15)30036-1.
     Google Scholar
  11. Ivan P, Toni J, Novel Transport protocol for 5G Networks. ICEST processing. 2016 June.
     Google Scholar