Network Simulation and Implementation of 5G NR Network in Tripoli City

Authors

  • Osama M .Abuzaid Faculty of Technical Science, Bani Walid, Libya Author
  • Ramadan A. M. Khalifa High Institute of science and Technology-Suk Algumaa Tripoli, Libya Author
  • Khaled ELgantri High Institute of science and Technology-Suk Algumaa Tripoli, Libya Author
  • Adel Issa Ben Issa Higher institute of engineering technologies Tripoli, Tripoli, Libya Author

DOI:

https://doi.org/10.58916/jhas.v8i3.173

Keywords:

Mmwaves, Link budget, SS-RSRP, SS-SINR, 5G topology

Abstract

Abstract: Recent tremendous rise in mobile communications is transforming the globe into a completely linked civilization. Current 4G networks account for about half of global mobile traffic, and overall mobile data traffic is likely to skyrocket in the coming years. The fourth generation (4G) mobile communication system is incapable of meeting some unique needs such as high traffic density, high traffic volume density, a large number of connections, and high mobility. This research is aimed to examine the deployment of 5G NR in various situations utilising the expert radio-planning tool Atoll in order to improve 5G NR Co-exists 4G in the neighbourhood of Tripoli City by building a 5G NR network. It is intended to cover the area with a 4G/5G network.

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References

T. Chapman, E. Larsson, P. von Wrycza, E. Dahlman, S. Parkvall, J. Skold, “HSPA Evolution The Fundamentals for Mobile Broadband,” Academic Press, 2015.

ITU-R, IMT Vision—Framework and overall objectives of the future development of IMT for 2020 and beyond. Recommendation ITU-R M.2083, September 2015.

D.Jyotsna Agrawal, Evolution of Mobile Communication Network: From 1G to 4G,Physics and Electronics Department, India, Nov 2015 - 11

ITU-R, Future technology trends of terrestrial IMT systems. Report ITU-R M.2320, November 2014.

Dahlman E, Parkvall S, Skld J. 4G LTE-Advanced Pro and the Road to 5G Elsevier 2016.

ITU-R, Guidelines for evaluation of radio interface technologies for IMT-2020. Report ITU-R M.2412 November 2017.

ITU-R, Minimum requirements related to technical performance for IMT-2020 radio inter-Face (s). Report ITU-R M.2410 November 2017.

Shttp://www.dolphmicrowave.com/news/%E3%80%905g%E3%80%915g-spectrum-range-of-3gpp protocol /, September 2020.

3GPP, “System Architecture for the 5G System (Release 15), TS 23.501; june-2018.

3GPP, “Release 15, TR 21.915; September-2019.

Rozé, Antoine. Massive MIMO, an angular approach for future multi-user systems at millimeter wavelengths. Diss. INSA of Rennes, 2016.

Dahlman E, Parkvall S, SK LD J. 5G NR: The Next Generation Wireless Access Technology Elsevier 2018.

Benosman. Radia. Sidhoum. Amel. "Studies and simulation of the performance of small cells in 5g systems". Diss. 2013.

P. Nagaraj, “Impact of atmospheric impairments on mmWave based communication, ”arXiv.org, 2018. [Online].

http://www.techplayon.com/5g-duplex/, May 2020

3GPP TS 38.211, NR, Physical Channels and Modulation (Release 15), December 2018.

http://www.techplayon.com/5g-nr-cell-search-and-synchronization-acquiring-system-information/.May 2020

http://www.techplayon.com/5g-network-rf-planning-link-budget-basics/, September 2020.

September 2020.

BOUCHERIT Yassamine, MADANI Samir, LTE RAN Design and Optimization, Institute National Telecommunications and Information and Communication Technologies, 2015.al at have not been published, even if they have been submittblication

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Published

2023-09-07

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Section

Articles

How to Cite

Osama M .Abuzaid, Ramadan A. M. Khalifa, Khaled ELgantri, & Adel Issa Ben Issa. (2023). Network Simulation and Implementation of 5G NR Network in Tripoli City. Bani Waleed University Journal of Humanities and Applied Sciences, 8(3), 390-402. https://doi.org/10.58916/jhas.v8i3.173

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