Millimeter-Wave Channel Simulation and Statistical Channel Model in the Cross-Corridor Environment at 28 GHz for 5G Wireless System

机译：5G无线系统在28 GHz跨走廊环境中的毫米波信道仿真和统计信道模型

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This paper presents the millimeter-wave (mmWave) propagation characteristics and statistical channel model parameters at 28 GHz for fifth generation (5G) wireless communication systems. The propagation characteristics of mmWave signal in the cross-corridor environments are analyzed based on the method of shooting and bouncing ray tracing/image (SBR/IM). Propagation characteristics, including path loss models, root-mean-square (RMS) delay spread, Ricean K-factor, and correlation coefficients between channel parameters are investigated. Moreover, path loss models are established for the cross-corridor channel. Results show that the path loss exponents (PLEs) vary between 1.37 and 1.75 for line-of-sight (LOS) scenarios and the PLEs vary between 2.90 and 5.09 for non-line-of-sight (NLOS) scenarios. The statistics of channel parameters are useful for 5G communication system development and deployment.

机译：本文介绍了第五代（5G）无线通信系统在28 GHz时的毫米波（mmWave）传播特性和统计信道模型参数。基于拍摄和反射光线跟踪/图像（SBR / IM）的方法，分析了毫米波信号在跨走廊环境中的传播特性。研究了传播特性，包括路径损耗模型，均方根（RMS）延迟扩展，Ricean K因子以及信道参数之间的相关系数。此外，为跨走廊通道建立了路径损耗模型。结果表明，对于视线（LOS）场景，路径损耗指数（PLEs）在1.37和1.75之间变化，对于非视线（NLOS）场景，PLEs在2.90和5.09之间变化。信道参数的统计信息对于5G通信系统的开发和部署很有用。

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《International Conference on Microwave and Millimeter Wave Technology》|2018年|1-3|共3页
会议地点 Chengdu(CN)
作者
Shuangde Li; Yuanjian Liu; Leke Lin; Xiangchen Sun; Shan Yang; Dingming Sun;
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Nanjing University of Posts and Telecommunications College of Electronic and Optical Engineering Jiangsu Nanjing 210003 China;

China Research Institute of Radio wave Propagation National Key Laboratory of Electromagnetic Environment Qingdao Shandong 266107 China;

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Wireless communication; 5G mobile communication; Delays; Electron tubes; Millimeter wave communication; Millimeter wave technology; Channel models;

机译：无线通信; 5G移动通信；延误；电子管；毫米波通讯；毫米波技术；渠道模式;

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机译：室内和城市环境中28 GHz的毫米波通道测量和统计空间通道模型分析
2. Indoor Corridor Wideband Radio Propagation Measurements and Channel Models for 5G Millimeter Wave Wireless Communications at 19 GHz, 28 GHz, and 38 GHz Bands [J] . Al-samman Ahmed M., Abd Rahman Tharek, Azmi Marwan Hadri Wireless communications & mobile computing . 2018,第1期

机译：适用于19 GHz，28 GHz和38 GHz频段的5G毫米波无线通信的室内走廊宽带无线电传播测量和信道模型
3. Channel Measurements and Modeling at 6 GHz in the Tunnel Environments for 5G Wireless Systems [J] . Li Shuang-de, Liu Yuan-jian, Lin Le-ke, International journal of antennas and propagation . 2017,第PTa4期

机译：5G无线系统在隧道环境中6 GHz的信道测量和建模
4. Millimeter-Wave Channel Simulation and Statistical Channel Model in the Cross-Corridor Environment at 28 GHz for 5G Wireless System [C] . Shuangde Li, Yuanjian Liu, Leke Lin, IEEE International Conference on Microwave and Millimeter Wave Technology . 2018

机译：28 GHz为5G无线系统的跨廊环境中毫米波通道仿真和统计信道模型
5. Statistical Spatial Channel Models for 5G Millimeter-Wave Cellular System Design [D] . Samimi, Mathew Khalil. 2016

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6. Statistical Modelling and Characterization of Experimental mm-Wave Indoor Channels for Future 5G Wireless Communication Networks [O] . A. M. Al-Samman, T. A. Rahman, M. H. Azmi, -1

机译：未来5G无线通信网络的实验性毫米波室内信道的统计建模和表征
7. 28 GHz Millimeter-Wave Ultrawideband Small-Scale Fading Models in Wireless Channels [O] . Samimi, Mathew K., MacCartney, Jr., George R., Sun, Shu, 2016

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Millimeter-Wave Channel Simulation and Statistical Channel Model in the Cross-Corridor Environment at 28 GHz for 5G Wireless System

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