Modelling and analysis of coverage for unmanned aerial vehicle base stations

Zhang Hui; Sung Dan Keun; Wang Jiangzhou

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Modelling and analysis of coverage for unmanned aerial vehicle base stations

机译：无人空中车辆基站覆盖覆盖的建模与分析

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摘要

Since the analysis of cell coverage faces complex environments in unmanned aerial vehicle base station (UAV-BS) systems, general coverage probability in a typical cell is derived to analyse a UAV-BS multi-tier network, and this coverage probability is closely related with power difference among UAV-BSs, two-dimension (2D) and three-dimension (3D) UAV-BS deployment, and general interference fading models. Especially, closed-form coverage probability expressions are also derived in the form of 2D scenario and 3D scenario, when the interference fading coefficient is assumed to follow a Gamma distribution and an exponential distribution, respectively. It shows that there exists maximum spectral efficiency density (SED) as the BS density increases, and such a BS density achieving the max-SED is independent of noise power, but is affected by various propagation parameters.

机译：由于对无人机基站（UAV-BS）系统中的细胞覆盖范围的分析面对复杂的环境，因此导出典型电池中的一般覆盖概率以分析UAV-BS多层网络，并且这种覆盖概率与其密切相关UAV-BSS，二维（2D）和三维（3D）UAV-BS部署以及一般干扰衰落模型之间的功率差异。特别地，当假设干扰衰落系数分别遵循伽马分布和指数分布时，也以2D场景和3D场景的形式导出闭合形式覆盖概率表达式。它表明，随着BS密度的增加，存在最大频谱效率密度（SED），并且实现MAX-SED的这种BS密度与噪声功率无关，但受各种传播参数的影响。

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来源
《Communications, IET》 |2020年第17期|2878-2888|共11页
作者
Zhang Hui; Sung Dan Keun; Wang Jiangzhou;
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作者单位

Nankai Univ Tianjin Key Lab Optoelect Sensor & Sensing Networ Tianjin Peoples R China;

Korea Adv Inst Sci & Technol Sch Elect Engn Daejeon South Korea;

Univ Kent Sch Engn & Digital Arts Canterbury Kent England;

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正文语种 eng
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关键词
autonomous aerial vehicles; radiofrequency interference; probability; cellular radio; remotely operated vehicles; gamma distribution; stochastic processes; general coverage probability; typical cell; UAV-BS multitier network; three-dimension UAV-BS deployment; general interference fading models; closed-form coverage probability expressions; interference fading coefficient; BS density increases; unmanned aerial vehicle base station; cell coverage;

机译：自动的空中飞行器;射频干扰;概率;蜂窝电台;遥控车辆;伽玛分布;随机过程;一般覆盖概率;典型的细胞;UAV-BS多层网络;三维UAV-BS部署;一般干扰衰落模型;封闭 - 形成覆盖概率表达;干扰衰落系数;BS密度增加;无人驾驶飞行器基站;细胞覆盖;

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专利

1. The coverage method of unmanned aerial vehicle mounted base station sensor network based on relative distance [J] . Taifei Zhao, Hua Wang, Qianwen Ma International Journal of Distributed Sensor Networks . 2020,第5期

机译：基于相对距离的无人空中车辆安装基站传感器网络的覆盖方法
2. Deployment of Unmanned Aerial Vehicle Base Stations for Optimal Quality of Coverage [J] . Savkin Andrey V, Huang Hailong Wireless Communications Letters, IEEE . 2019,第1期

机译：部署无人机基地台以实现最佳覆盖质量
3. 3-D Placement of an Unmanned Aerial Vehicle Base Station (UAV-BS) for Energy-Efficient Maximal Coverage [J] . Mohamed Alzenad, Amr El-Keyi, Faraj Lagum, Wireless Communications Letters, IEEE . 2017,第4期

机译：无人驾驶飞机基站（UAV-BS）的3D放置，以实现节能最大覆盖
4. Indoor Coverage Analysis for Unmanned Aerial Vehicle Base Stations [C] . Mahmut Demirtaş, Furkan Aydın, Gülçin Tanış, Signal Processing and Communications Applications Conference . 2019

机译：无人机基站室内覆盖率分析
5. Use of Model-Based Design Methods for Enhancing Resiliency Analysis of Unmanned Aerial Vehicles. [D] . Knox, Lenora A. 2017

机译：使用基于模型的设计方法来增强无人机的弹性分析。
6. A Complex Network Theory-Based Modeling Framework for Unmanned Aerial Vehicle Swarms [O] . Lizhi Wang, Dawei Lu, Yuan Zhang, 2018

机译：基于复杂网络理论的无人机群建模框架
7. Modelling and analysis of coverage for unmanned aerial vehicle base stations [O] . Hui Zhang, Dan Keun Sung, Jiangzhou Wang 2020

机译：无人空中车辆基站覆盖覆盖的建模与分析

Modelling and analysis of coverage for unmanned aerial vehicle base stations

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