Proceedings ArticleDOI
Performance of cloud radio networks with clustering
T. V. Sreejith,Kiran Kuchi,Radha Krishna Ganti +2 more
- pp 2738-2743
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This paper develops approximations for the coverage probability of a typical user in a clustered cloud network with zero-forcing dirty paper coding and quantifies the adverse effect of finite clusters on the achievable rate.Abstract:
Cloud radio networks employ coordinated transmission among base stations (BSs) to reduce the interference effects The practical limitations in implementing coordination results in suboptimal systems with limited performance In this paper, we analyze the performance of a cloud network with clustering, where geographically close BSs form a clustered cloud Coverage probability and rate distributions are analyzed using stochastic geometric models Specifically, we develop approximations for the coverage probability of a typical user in a clustered cloud network with zero-forcing dirty paper coding The adverse effect of finite clusters on the achievable rate is quantifiedread more
Citations
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Journal ArticleDOI
Coverage Analysis of Cloud Radio Networks With Finite Clustering
TL;DR: It is shown that even with a practically feasible feedback of about five to six channel states from each user, significant gain in mean rate and cell edge rate compared with conventional cellular systems can be obtained.
Posted Content
Performance of Cloud Radio Networks.
TL;DR: It is shown that even with a practically feasible feedback of about five to six channel states from each user, significant gain in mean rate and cell edge rate compared to conventional cellular systems can be obtained.
Proceedings ArticleDOI
Multi-cell coordination via disjoint clustering in dense millimeter wave cellular networks
TL;DR: The results suggest that the optimal cluster size to achieve the maximum area spectral efficiency (ASE) increases as the blockage factor, which is determined by the density and the average size of the buildings, decreases.
References
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Coordinating multiple antenna cellular networks to achieve enormous spectral efficiency
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