Role of Different Spatial Point Processes on Network Densification towards 5G Development: Coverage and Rate Analysis

2020 IEEE Calcutta Conference (CALCON) Pub Date : 2020-02-01 DOI:10.1109/CALCON49167.2020.9106542

Arijeet Ghosh, Tanmoy Kundu, I. Saha Misra, Salil Kumar Sanyal

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引用次数: 1

Abstract

The rapid growth in tele traffic density has enforced the modern wireless network to evolve in the direction of network densification which is speculated to play a key role in designing deployment strategies for 5G wireless communication standards. Modeling the dense small cell network by Spatial Point Process (SPP) provides an efficient and tractable technique to investigate the network performance using the stochastic geometry theory, in terms of coverage probability (CP) and average rate (AR). This paper aims to provide a reasonable performance analysis of three established SPPs, namely, Binomial Point process (BPP), Homogeneous Poisson Point Process (HPPP), Non-Homogeneous Poisson Point Process (NHPPP) in terms of achieved coverage and rate. Furthermore, the Close-In (CI) reference path-loss model plays a pivotal role in estimating downlink SINR which in turn leads to derive the expressions for CP and AR. It is observed that with the increase in tele-density as well as eNB density the NHPPP outperforms both BPP and HPPP in providing better coverage and rate.

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不同空间点过程对5G网络密度的影响:覆盖率和速率分析

远程通信流量密度的快速增长迫使现代无线网络向网络致密化方向发展，推测这对设计5G无线通信标准的部署策略起着关键作用。利用空间点过程(SPP)对密集小蜂窝网络进行建模，为利用随机几何理论研究网络的覆盖概率(CP)和平均速率(AR)提供了一种有效且易于处理的技术。本文旨在对三种已建立的SPPs，即二项式点过程(BPP)、齐次泊松点过程(HPPP)和非齐次泊松点过程(NHPPP)在实现覆盖率和率方面的性能进行合理的分析。此外，Close-In (CI)参考路径损耗模型在估计下行信噪比中起着关键作用，从而推导出CP和AR的表达式。我们观察到，随着远端密度和eNB密度的增加，NHPPP在提供更好的覆盖率和速率方面优于BPP和HPPP。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 IEEE Calcutta Conference (CALCON)

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