Millimeter-wave wireless backhauling for 5G small cells: Scalability of mesh over star topologies

Millimeter-wave wireless backhauling for 5G small cells: Scalability of mesh over star topologies. Nasr, A. I. & Fahmy, Y. 18th IEEE International Symposium on A World of Wireless, Mobile and Multimedia Networks, WoWMoM 2017 - Conference, 2017. Publisher: IEEE ISBN: 9781538627228
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Mobile backhauling, small cells and MmWave are key supportive technologies for 5G revolution. Mobile backhauling is the key enabler and also a showstopper for 5G small cells deployments. Scalability and reliability with high data rate and larger bandwidth are important factors to choose the small cell backhauling topology. In this paper, We consider the star and mesh topologies for the MmWave wireless backhauling. Simulations are conducted over random networks. The system throughput, scalability, reliability and fairness are used to compare the two different topologies under different considered scenarios. These scenarios include the Line-Of-Sight (LoS) and the Non-Line-Of-Sight (NLoS) connections as well as different cell sizes.

@article{Nasr2017,
	title = {Millimeter-wave wireless backhauling for {5G} small cells: {Scalability} of mesh over star topologies},
	doi = {10.1109/WoWMoM.2017.7974345},
	abstract = {Mobile backhauling, small cells and MmWave are key supportive technologies for 5G revolution. Mobile backhauling is the key enabler and also a showstopper for 5G small cells deployments. Scalability and reliability with high data rate and larger bandwidth are important factors to choose the small cell backhauling topology. In this paper, We consider the star and mesh topologies for the MmWave wireless backhauling. Simulations are conducted over random networks. The system throughput, scalability, reliability and fairness are used to compare the two different topologies under different considered scenarios. These scenarios include the Line-Of-Sight (LoS) and the Non-Line-Of-Sight (NLoS) connections as well as different cell sizes.},
	journal = {18th IEEE International Symposium on A World of Wireless, Mobile and Multimedia Networks, WoWMoM 2017 - Conference},
	author = {Nasr, Ahmed I. and Fahmy, Yasmine},
	year = {2017},
	note = {Publisher: IEEE
ISBN: 9781538627228},
	pages = {1--6},
}

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