Outdoor-to-Indoor and Indoor-to-Indoor Propagation Path Loss Modeling Using Smart 3D Ray Tracing Algorithm at 28 GHz mmWave

Ubaid Ullah; Usman Rauf Kamboh; Ferdous Hossain; Muhammad Danish

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Outdoor-to-Indoor and Indoor-to-Indoor Propagation Path Loss Modeling Using Smart 3D Ray Tracing Algorithm at 28 GHz mmWave

机译：28 GHz MMWAVE中使用SMART 3D射线跟踪算法的户外到室内和室内环球传播路径损耗模型

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The goal of the article is to provide a radio propagation algorithm for an outdoor-to-indoor and indoor-to-indoor environment for 5G mmWave in a populated city. This work is done by simulating a smart 3D ray tracing algorithm in MATLAB. The research here is done by taking into account the 28 [GHz] operating frequency which is potential for 5G network. The received results are provided in form of path loss and received signal strength. The results obtained show that a moderate outdoor-to-indoor service can be provided at the above-mentioned frequency. Two indoor path loss models (WINNER II and ITU-R) are also compared here. The literature review provided here is sufficient enough to prove that there is still a huge gap between the conventional ray tracing methods. The proposed model here deals with radio propagations using speedy computations and efficient use of resources. The findings of this paper also include that the path loss is also dependent on the separation between transmitter and receiver, the structure of the building and number and type of the obstructions in the path of RF waves.

机译：该物品的目标是为户外到室内和室内到室内环境提供一个用于5G MMWave的无线电传播算法。通过模拟MATLAB中的智能3D射线跟踪算法来完成此工作。这里的研究是通过考虑28 [GHz]的工作频率来完成的，这是5G网络的可能性。所接收的结果以路径损耗和接收信号强度的形式提供。得到的结果表明，可以以上述频率提供适度的室外到室内服务。这里也比较两个室内路径损失模型（获胜者II和ITU-R）。这里提供的文献综述足以证明常规射线跟踪方法之间仍然存在巨大差距。这里提出的模型处理使用快速计算和有效利用资源的无线电传播。本文的发现还包括路径损耗也取决于发射器和接收器之间的分离，建筑物的结构和数量的结构和RF波路径中的障碍物的结构。

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来源
《Arabian Journal for Science and Engineering. Section A, Sciences》 |2020年第12期|10223-10232|共10页
作者
Ubaid Ullah; Usman Rauf Kamboh; Ferdous Hossain; Muhammad Danish;
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作者单位

School of Computational Science The University of Faisalabad Punjab 38000 Pakistan;

School of Computational Science The University of Faisalabad Punjab 38000 Pakistan;

Faculty of Engineering and Technology Multimedia University 75450 Melaka Malaysia;

School of Computational Science The University of Faisalabad Punjab 38000 Pakistan;

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收录信息美国《科学引文索引》(SCI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Femtocell; Macro-cell; 3D ray tracing; LoS; NLoS;

机译：femtocell;宏观细胞;3D射线跟踪;洛杉矶;nlos.;

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专利

1. Propagation modeling for outdoor-to-indoor and indoor-to-indoor wireless links in high-speed train [J] . Zhang Lei, Rodriguez-Pineiro Jose, Fernandez Jean R. O., Measurement . 2017,第期

机译：高速列车的室外室内和室内到室内无线连接的传播建模
2. Radio propagation path loss models for 5G cellular networks in the 28 GHZ and 38 GHZ millimeter-wave bands [J] . Sulyman A.I., Nassar A.T., Samimi M.K., Communications Magazine, IEEE . 2014,第9期

机译：28 GHZ和38 GHZ毫米波频段中5G蜂窝网络的无线电传播路径损耗模型
3. Directional Radio Propagation Path Loss Models for Millimeter-Wave Wireless Networks in the 28-, 60-, and 73-GHz Bands [J] . Ahmed Iyanda Sulyman, Abdulmalik Alwarafy, George R. MacCartney, IEEE transactions on wireless communications . 2016,第10期

机译：在28、60和73 GHz频段内的毫米波无线网络的定向无线电传播路径损耗模型
4. Verifying path loss and delay spread predictions of a 3D ray tracing propagation model in urban environment [C] . Rautiainen, T., Wolfle, . 2002

机译：在城市环境中验证3D射线跟踪传播模型的路径损耗和延迟扩展预测
5. Advances in PATH LOSS algorithms in the antenna-to-antenna propagation with graphics (AAPG) EMC analysis program. [D] . Drolet, Marc J. L. 1989

机译：带有图形（AAPG）EMC分析程序的天线到天线传播中PATH LOSS算法的进步。
6. Path loss dataset for modeling radio wave propagation in smart campus environment [O] . Segun I. Popoola, Aderemi A. Atayero, Oghenekaro D. Arausi, 2018

机译：用于在智能园区环境中对无线电波传播进行建模的路径损耗数据集
7. Indoor Office Plan Environment and Layout-Based MmWave Path Loss Models for 28 GHz and 73 GHz [O] . MacCartney Jr., George R., Deng, Sija, Rappaport, Theodore S. 2016

机译：室内办公室规划环境和基于布局的mmWave路径损耗模型适用于28 GHz和73 GHz
8. A Ray Tracing Model for Propagation Loss Calculations. [R] . Wyllie, D. V. 1978

机译：传播损耗计算的射线追踪模型。

Outdoor-to-Indoor and Indoor-to-Indoor Propagation Path Loss Modeling Using Smart 3D Ray Tracing Algorithm at 28 GHz mmWave

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