Wireless fractal cellular networks

Xiaohu Ge; Yehong Qiu; Jiaqi Chen; Meidong Huang; Hui Xu; Jing Xu; Wuxiong Zhang; Yang Yang; Cheng Xiang Wang; John Thompson

doi:10.1109/MWC.2016.7721749

Wireless fractal cellular networks

Xiaohu Ge
, Yehong Qiu
, Jiaqi Chen
, Meidong Huang
, Hui Xu
, Jing Xu
, Wuxiong Zhang
, Yang Yang
, Cheng Xiang Wang
, John Thompson

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

38 Scopus citations

Abstract

With the seamless coverage of wireless cellular networks in modern society, it is interesting to consider the shape of wireless cellular coverage. Is the shape a regular hexagon, an irregular polygon, or another complex geometrical shape? Based on fractal theory, the statistical characteristic of the wireless cellular coverage boundary is determined by the measured wireless cellular data collected from Shanghai, China. The measured results indicate that the wireless cellular coverage boundary presents an extremely irregular geometrical shape, which is also called a statistical fractal shape. Moreover, the statistical fractal characteristics of the wireless cellular coverage boundary have been validated by values of the Hurst parameter estimated in angular scales. The statistical fractal characteristics of the wireless cellular coverage boundary can be used to evaluate and design the handoff scheme of mobile user terminals in wireless cellular networks.

Original language	English
Article number	7721749
Pages (from-to)	110-119
Number of pages	10
Journal	IEEE Wireless Communications
Volume	23
Issue number	5
DOIs	https://doi.org/10.1109/MWC.2016.7721749
State	Published - Oct 2016
Externally published	Yes

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title = "Wireless fractal cellular networks",

abstract = "With the seamless coverage of wireless cellular networks in modern society, it is interesting to consider the shape of wireless cellular coverage. Is the shape a regular hexagon, an irregular polygon, or another complex geometrical shape? Based on fractal theory, the statistical characteristic of the wireless cellular coverage boundary is determined by the measured wireless cellular data collected from Shanghai, China. The measured results indicate that the wireless cellular coverage boundary presents an extremely irregular geometrical shape, which is also called a statistical fractal shape. Moreover, the statistical fractal characteristics of the wireless cellular coverage boundary have been validated by values of the Hurst parameter estimated in angular scales. The statistical fractal characteristics of the wireless cellular coverage boundary can be used to evaluate and design the handoff scheme of mobile user terminals in wireless cellular networks.",

author = "Xiaohu Ge and Yehong Qiu and Jiaqi Chen and Meidong Huang and Hui Xu and Jing Xu and Wuxiong Zhang and Yang Yang and Wang, \{Cheng Xiang\} and John Thompson",

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T1 - Wireless fractal cellular networks

AU - Ge, Xiaohu

AU - Qiu, Yehong

AU - Chen, Jiaqi

AU - Huang, Meidong

AU - Xu, Hui

AU - Xu, Jing

AU - Zhang, Wuxiong

AU - Yang, Yang

AU - Wang, Cheng Xiang

AU - Thompson, John

PY - 2016/10

Y1 - 2016/10

N2 - With the seamless coverage of wireless cellular networks in modern society, it is interesting to consider the shape of wireless cellular coverage. Is the shape a regular hexagon, an irregular polygon, or another complex geometrical shape? Based on fractal theory, the statistical characteristic of the wireless cellular coverage boundary is determined by the measured wireless cellular data collected from Shanghai, China. The measured results indicate that the wireless cellular coverage boundary presents an extremely irregular geometrical shape, which is also called a statistical fractal shape. Moreover, the statistical fractal characteristics of the wireless cellular coverage boundary have been validated by values of the Hurst parameter estimated in angular scales. The statistical fractal characteristics of the wireless cellular coverage boundary can be used to evaluate and design the handoff scheme of mobile user terminals in wireless cellular networks.

AB - With the seamless coverage of wireless cellular networks in modern society, it is interesting to consider the shape of wireless cellular coverage. Is the shape a regular hexagon, an irregular polygon, or another complex geometrical shape? Based on fractal theory, the statistical characteristic of the wireless cellular coverage boundary is determined by the measured wireless cellular data collected from Shanghai, China. The measured results indicate that the wireless cellular coverage boundary presents an extremely irregular geometrical shape, which is also called a statistical fractal shape. Moreover, the statistical fractal characteristics of the wireless cellular coverage boundary have been validated by values of the Hurst parameter estimated in angular scales. The statistical fractal characteristics of the wireless cellular coverage boundary can be used to evaluate and design the handoff scheme of mobile user terminals in wireless cellular networks.

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DO - 10.1109/MWC.2016.7721749

M3 - 文章

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VL - 23

SP - 110

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JO - IEEE Wireless Communications

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ER -

Wireless fractal cellular networks

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