首页|太赫兹频段室内场景空-时域信道特性测量与建模研究

太赫兹频段室内场景空-时域信道特性测量与建模研究

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掌握太赫兹频段室内信道特性及模型,是太赫兹室内通信系统设计和技术评估的前提。为了解太赫兹频段室内空-时域的信道特性,选取典型室内办公室场景,分别完成视距(Line of Sight,LoS)和非视距(Non Line of Sight,NLoS)场景下100 GHz频段、带宽为1。2 GHz的信道测量。通过分析结果,发现两场景的均方根时延扩展值和均方根角度扩展值都服从正态分布,且NLoS场景的两种参数值都比LoS场景大。此外,由于太赫兹频段多径信号分量较少,且测量场景尺寸较小,使得实测的均方根时延扩展值的测量结果比3GPP标准值约小12 ns。通过建立对数距离模型探讨测量距离对两种参数的影响,发现均方根角度扩展值在NLoS场景中随距离的增加有上升趋势,而均方根时延扩展值在两场景中变化趋势相反。
Measurement and Modeling of Spatial-Temporal Channel Characteristics of Indoor Scenes in Terahertz Bands
Understanding characteristics and model of indoor channel in terahertz bands is the premise of terahertz indoor communi-cation system design and technical evaluation.In order to understand channel characteristics of indoor space-time domain in terahertz bands,a typical indoor office scenario was selected to complete channel measurement in 100 GHz band with a bandwidth of 1.2 GHz in Line-of-Sight(LoS)and Non-Line-of-Sight(NLoS)scenarios.By analyzing the results,it is found that the root mean square delay spread value and the root mean square angle spread value of the two scenario obey normal distribution,and the two parameter values in the NLoS scenario are larger than those in the LoS scenario.In addition,due to the fewer multipath signal components in the terahertz band,and the smaller size of the measurement scenario,the measured root mean square delay spread value is about 12 ns smaller than that in the 3GPP standard.Finally,a logarithmic distance model was established to explore the influence of measurement distance on the two parameters.It is found that the root mean square angle spread has an upward trend with the increase of distance in the NLoS scenario,while the root mean square delay spread has an opposite trend in the two scenarios.

terahertz channel modelingindoor office scenariodelay characteristicangular characteristic

丁子航、唐盼、张建华、常钊玮、田磊

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北京邮电大学信息与通信工程学院,北京 100876

北京邮电大学电子工程学院,北京 100876

太赫兹信道建模 室内办公室场景 时延特性 角度特性

国家杰出青年科学基金国家自然科学基金青年科学基金国家自然科学基金青年科学基金国家自然科学基金青年科学基金北京邮电大学信息与通信工程学院优秀学生创新基金BUPT-SICE Excellent Student Creative Foundation

61925102622010866220108762101069

2024

10.3969/j.issn.1003-3114.2024.01.012

无线电通信技术
中国电子科技集团公司第五十四研究所

无线电通信技术

北大核心
影响因子:0.745
ISSN:1003-3114
年,卷(期):2024.50(1)
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