Coexisting Success Probability and Throughput of Multi-RAT Wireless Networks with Unlicensed Band Access release_uomh6zzcv5f7zdg7cvcvt32xqe [as of editgroup_7ymtjomtu5gjvl3vrtl47mvpte]

by Xu Ding, Chun-Hung Liu, Li-Chun Wang, Xiaohui Zhao

Released as a article .

2015  

Abstract

In this letter, the coexisting success probability and throughput of a wireless network consisting of multiple subnetworks of different radio access technologies (RATs) is investigated. The coexisting success probability that is defined as the average of all success probabilities of all subnetworks is found in closed-form and it will be shown to have the concavity over the number of channels in the unlicensed band. The optimal deployment densities of all different RATs access points (APs) that maximize the coexisting success probability are shown to exist and can be found under the derived constraint on network parameters. The coexisting throughput is defined as the per-channel sum of all spectrum efficiencies of all subnetworks and numerical results show that it is significantly higher than the throughput of the unlicensed band only accessed by WiFi APs.
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Type  article
Stage   submitted
Date   2015-09-11
Version   v2
Language   en ?
arXiv  1505.04944v2
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