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国际电信联盟电波传播干扰与兼容性分析

林乐科 张蕊 赵振维 张红波

林乐科, 张蕊, 赵振维, 等. 国际电信联盟电波传播干扰与兼容性分析[J]. 强激光与粒子束, 2019, 31: 023201. doi: 10.11884/HPLPB201931.180338
引用本文: 林乐科, 张蕊, 赵振维, 等. 国际电信联盟电波传播干扰与兼容性分析[J]. 强激光与粒子束, 2019, 31: 023201. doi: 10.11884/HPLPB201931.180338
Lin Leke, Zhang Rui, Zhao Zhenwei, et al. Radio wave propagation interference and compatibility analysis in ITU-R[J]. High Power Laser and Particle Beams, 2019, 31: 023201. doi: 10.11884/HPLPB201931.180338
Citation: Lin Leke, Zhang Rui, Zhao Zhenwei, et al. Radio wave propagation interference and compatibility analysis in ITU-R[J]. High Power Laser and Particle Beams, 2019, 31: 023201. doi: 10.11884/HPLPB201931.180338

国际电信联盟电波传播干扰与兼容性分析

doi: 10.11884/HPLPB201931.180338
基金项目: 

国家自然科学基金项目 61401410

详细信息
    作者简介:

    林乐科(1972-), 男,研究员,从事电波传播研究;llk22s@163.com

  • 中图分类号: TN011

Radio wave propagation interference and compatibility analysis in ITU-R

  • 摘要: 对国际电信联盟无线通信部第三研究组干扰与兼容性分析相关的标准文本(建议书、手册、报告等)进行了系统的整理与分析,介绍了导致无线电信号干扰的主要传播机理,对于标准文本中干扰与兼容性分析的传播模型进行了简要的介绍,给出了相关传播模型和标准的最新进展,对于标准与模型的发展趋势进行了展望。
  • 图  1  地面点对点路径长期干扰传播机理

    Figure  1.  Long-term interference propagation mechanisms on terrestrial point-to-point path

    图  2  地面点对点路径异常(短期)干扰传播机理

    Figure  2.  Anomalous (short-term) interference propagation mechanisms on terrestrial point-to-point path

  • [1] Editing group chaired by Carol Wilson. ITU-R propagation prediction methods for interference and sharing studies[M]. ITU-R Handbook, 2012.
    [2] Rec. ITU-R P. 452-16, Prediction procedure for the evaluation of interference between stations on the surface of the Earth at frequencies above about 0. 1 GHz[S]. 2015.
    [3] ITU-R Question 208-5/3, Propagation factors in frequency sharing issues affecting space radiocommunication services and terrestrial services[S]. 2013.
    [4] Rec. ITU-R P. 2001-2, A general purpose wide-range terrestrial propagation model in the frequency range 30 MHz to 50 GHz[S]. 2015.
    [5] Rec. ITU-R P. 619-3, Propagation data required for the evaluation of interference between stations in space and those on the surface of the Earth[S]. 2017.
    [6] Rec. ITU-R P. 620-7, Propagation data required for the evaluation of coordination distances in the frequency range 100 MHz to 105 GHz[S]. 2003.
    [7] Rec. ITU-R P. 1412, Propagation data for the evaluation of coordination between Earth stations working in the bidirectionally allocated frequency bands[S]. 1999.
    [8] Rec. ITU-R P. 528-3, Propagation curves for aeronautical mobile and radionavigation services using the VHF, UHF and SHF bands[S]. 2012.
    [9] Rec. ITU-R P. 1546-5, Method for point-to-area predictions for terrestrial services in the frequency range 30 MHz to 3 000 MHz[S]. 2013.
    [10] Rec. ITU-R P. 1812-4, A path-specific propagation prediction method for point-to-area terrestrial services in the VHF and UHF bands[S]. 2015.
    [11] Rec. ITU-R P. 2108, Prediction of clutter loss[S]. 2017.
    [12] Rec. ITU-R P. 2109, Prediction of building entry loss[S]. 2017.
    [13] Rec. ITU-R P. 844-1, Ionospheric factors affecting frequency sharing in the VHF and UHF bands (30 MHz-3 GHz)[S]. 1994.
    [14] Rec. ITU-R P. 1060, Propagation factors affecting frequency sharing in HF terrestrial systems[S]. 1994.
    [15] Rec. ITU-R P. 533-13, Method for the prediction of the performance of HF circuits[S]. 2015.
    [16] Rep. ITU-R P. 2406, Studies for short-path propagation data and models for terrestrial radiocommunication systems in the frequency range 6 GHz to 100 GHz[S]. 2017.
    [17] Rec. ITU-R P. 372-13, Radio noise[S]. 2016.
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  • 被引次数: 0
出版历程
  • 收稿日期:  2018-11-23
  • 修回日期:  2018-12-29
  • 刊出日期:  2019-02-15

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