Linear-regression based performance approximation for millimeter-wave multicell networks with β-Ginibre deployed base stations

Taesoo Kwon; Moon Sik Lee; Youngil Jeon; Hyeon Woo LEE

doi:10.1016/j.icte.2022.02.010

Linear-regression based performance approximation for millimeter-wave multicell networks with β-Ginibre deployed base stations

Taesoo Kwon, Moon Sik Lee, Youngil Jeon, Hyeon Woo LEE

Dept. of Computer Science and Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

This paper investigates the performance of millimeter-wave (mmWave) multicell networks with repulsively deployed base stations (BSs), via the β-Ginibre point process (β-GPP) where β adjusts the BS repulsion. In particular, this study analytically expresses the SINR distributions and validates the results via extensive simulations. Further, this paper empirically demonstrates that the effects of BS repulsion can be well modeled via linear regression (LR) and this LR-based approach can be also quite simply approximated as the convex combination (CC) of the two extreme cases of β→0 and β=1. Therefore, the proposed CC approximation can significantly reduce the time for calculating the SINR distributions in β-GPP mmWave multicell networks.

Original language	English
Pages (from-to)	302-308
Number of pages	7
Journal	ICT Express
Volume	8
Issue number	2
DOIs	https://doi.org/10.1016/j.icte.2022.02.010
State	Published - Jun 2022

Keywords

5G
Linear regression
MmWave multicell
Stochastic geometry
β-GPP

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10.1016/j.icte.2022.02.010

Cite this

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title = "Linear-regression based performance approximation for millimeter-wave multicell networks with β-Ginibre deployed base stations",

abstract = "This paper investigates the performance of millimeter-wave (mmWave) multicell networks with repulsively deployed base stations (BSs), via the β-Ginibre point process (β-GPP) where β adjusts the BS repulsion. In particular, this study analytically expresses the SINR distributions and validates the results via extensive simulations. Further, this paper empirically demonstrates that the effects of BS repulsion can be well modeled via linear regression (LR) and this LR-based approach can be also quite simply approximated as the convex combination (CC) of the two extreme cases of β→0 and β=1. Therefore, the proposed CC approximation can significantly reduce the time for calculating the SINR distributions in β-GPP mmWave multicell networks.",

keywords = "5G, Linear regression, MmWave multicell, Stochastic geometry, β-GPP",

author = "Taesoo Kwon and Lee, \{Moon Sik\} and Youngil Jeon and LEE, \{Hyeon Woo\}",

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AU - Kwon, Taesoo

AU - Lee, Moon Sik

AU - Jeon, Youngil

AU - LEE, Hyeon Woo

PY - 2022/6

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AB - This paper investigates the performance of millimeter-wave (mmWave) multicell networks with repulsively deployed base stations (BSs), via the β-Ginibre point process (β-GPP) where β adjusts the BS repulsion. In particular, this study analytically expresses the SINR distributions and validates the results via extensive simulations. Further, this paper empirically demonstrates that the effects of BS repulsion can be well modeled via linear regression (LR) and this LR-based approach can be also quite simply approximated as the convex combination (CC) of the two extreme cases of β→0 and β=1. Therefore, the proposed CC approximation can significantly reduce the time for calculating the SINR distributions in β-GPP mmWave multicell networks.

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Linear-regression based performance approximation for millimeter-wave multicell networks with β-Ginibre deployed base stations

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