Performance Analysis of Decoupled Cell Association in Multi-Tier Hybrid Networks using Real Blockage Environments
Osama Waqar Bhatti, Haris Suhail, Uzair Akbar, Syed Ali Hassan, Haris, Pervaiz, Leila Musavian, Qiang Ni

TL;DR
This paper evaluates the impact of downlink-uplink decoupling in three-tier heterogeneous networks within real-world environments, demonstrating potential improvements in coverage and data rates for 5G mmWave systems.
Contribution
It provides the first analysis of DUDe effects in multi-tier HetNets using real blockage environments, highlighting environment-dependent performance gains.
Findings
DUDe improves system coverage and data rates.
Performance gains vary across different real-world environments.
Simulation results confirm the benefits of DUDe in mmWave HetNets.
Abstract
Millimeter wave (mmWave) links have the potential to offer high data rates and capacity needed in fifth generation (5G) networks, however they have very high penetration and path loss. A solution to this problem is to bring the base station closer to the end-user through heterogeneous networks (HetNets). HetNets could be designed to allow users to connect to different base stations (BSs) in the uplink and downlink. This phenomenon is known as downlink-uplink decoupling (DUDe). This paper explores the effect of DUDe in a three tier HetNet deployed in two different real-world environments. Our simulation results show that DUDe can provide improvements with regard to increasing the system coverage and data rates while the extent of improvement depends on the different environments that the system is deployed in.
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Taxonomy
TopicsMillimeter-Wave Propagation and Modeling · Advanced MIMO Systems Optimization · Telecommunications and Broadcasting Technologies
See pages 1-last of paper1.pdf
