紫外光通信散射信道模型分析与发展现状

袁仁智; 王志峰; 彭木根

doi:10.11959/j.issn.1000-0801.2021126

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紫外光通信散射信道模型分析与发展现状

专题：5G+6G | 更新时间：2024-06-05

- 紫外光通信散射信道模型分析与发展现状
- Analysis and status of the scattering channel model for ultraviolet communications
- 电信科学 2021年37卷第6期页码：45-54
- 作者机构：
  
  1. 加拿大英属哥伦比亚大学奥肯纳根校区工程系，基隆拿 V1V1V7，加拿大
  2. 北京邮电大学信息与通信工程学院，北京 100876
- 作者简介：
  
  [ "袁仁智（1990- ），男，加拿大英属哥伦比亚大学奥肯拿根校区工程系博士生，主要研究方向为无线光通信、水下光通信、光量子检测及应用等" ]
  [ "王志峰（1993- ），男，北京邮电大学信息与通信工程学院博士生，主要研究方向为无线通信、无线光通信、紫外光通信等" ]
  [ "彭木根（1978- ），男，博士，北京邮电大学信息与通信工程学院执行院长、教授，主要研究方向为 6G 无线组网、雾无线网络和智慧物联网等" ]
- 基金信息：
  
  国家自然科学基金资助项目(61925101)
- DOI：10.11959/j.issn.1000-0801.2021126
  中图分类号： TP393
- 网络出版日期：2021-06，
  
  纸质出版日期：2021-06-20
- 稿件说明：
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袁仁智, 王志峰, 彭木根. 紫外光通信散射信道模型分析与发展现状[J]. 电信科学, 2021,37(6):45-54.

Renzhi YUAN, Zhifeng WANG, Mugen PENG. Analysis and status of the scattering channel model for ultraviolet communications[J]. Telecommunications science, 2021, 37(6): 45-54.
袁仁智, 王志峰, 彭木根. 紫外光通信散射信道模型分析与发展现状[J]. 电信科学, 2021,37(6):45-54. DOI： 10.11959/j.issn.1000-0801.2021126.

Renzhi YUAN, Zhifeng WANG, Mugen PENG. Analysis and status of the scattering channel model for ultraviolet communications[J]. Telecommunications science, 2021, 37(6): 45-54. DOI： 10.11959/j.issn.1000-0801.2021126.

摘要

紫外光通信是利用“日盲区”紫外波段（200～280 nm）为信息载体的光通信技术，具有高局域保密性、低辐射背景噪声、可实现非视距通信等特点，在保密通信和车联网等领域具有广泛的应用前景。根据计算效率将紫外光通信散射信道模型分为解析类信道模型和概率类信道模型。重点介绍了解析类信道模型中的单阶、两阶、三阶散射模型，以及概率类信道模型中的蒙特卡洛仿真模型和蒙特卡洛积分模型，并展望了紫外光通信散射信道模型的未来研究方向。

Abstract

Due to its unique features such as high local security

low background noise

and non-light-of-sight communication

the ultraviolet communication

which uses the light wave of “solar blind” wavelength (200～280 nm) as the information carrier

becomes a promising optical communication technique for applications in both secure communications and internet of vehicles and so on.The scattering channel models were classified into analytical channel models and stochastic channel models according to their different computational efficiencies.The research of the first three scattering orders in analytical channel models and the Monte-Carlo simulation model and Monte-Carlo integration model in stochastic channel models were mainly focused on.Some future research directions for the scattering channel model of ultraviolet communications were also provided.

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references

张彤 , 任奕璟 , 闫实 , 等 . 人工智能驱动的6G网络:智慧内生 [J ] . 电信科学 , 2020 , 36 ( 9 ): 15 - 22 .

ZHANG T , REN Y J , YAN S , et al . Artificial intelligence driven 6G networks:endogenous intelligence [J ] . Telecommunications Science , 2020 , 36 ( 9 ): 15 - 22 .

刘杨 , 彭木根 . 6G 内生安全：体系结构与关键技术 [J ] . 电信科学 , 2020 , 36 ( 1 ): 11 - 20 .

LIU Y , PENG M G . 6G endogenous security:architecture and key technologies [J ] . Telecommunications Science , 2020 , 36 ( 1 ): 11 - 20 .

聂凯君 , 曹傧 , 彭木根 . 6G 内生安全：区块链技术 [J ] . 电信科学 , 2020 , 36 ( 1 ): 21 - 27 .

NIE K J , CAO B , PENG M G . 6G endogenous security:block-chain technology [J ] . Telecommunications Science , 2020 , 36 ( 1 ): 21 - 27 .

YUAN R Z , MA J S . Review of ultraviolet non-line-of-sight communication [J ] . China Communications , 2016 , 13 ( 6 ): 63 - 75 .

VAVOULAS A , SANDALIDIS H G , CHATZIDIAMANTIS N D , et al . A survey on ultraviolet c-band (UV-C) communications [J ] . IEEE Communications Surveys ＆ Tutorials , 2019 , 21 ( 3 ): 2111 - 33 .

赵明 , 肖沙里 , 王玺 , 等 . 基于 LED 的紫外光通信系统研究 [J ] . 激光与光电子学进展 , 2010 ( 4 ): 19 - 24 .

ZHAO M , XIAO S L , WANG X , et al . Ultraviolet communica-tion system based on deep LED [J ] . Laser ＆ Optoelectronics Progress , 2010 ( 4 ): 19 - 24 .

XU C M , ZHANG H M , CHENG J . Effects of haze particles and fog droplets on NLOS ultraviolet communication channels [J ] . Optics Express , 2015 , 23 ( 18 ): 23259 - 23269 .

REILLY D M . Atmospheric optical communications in the middle ultraviolet [D ] . Cambridge:Massachusetts Institute of Technology , 1976 .

LUETTGEN M R , REILLY D M , SHAPIRO J H . Non-line-of-sight single-scatter propagation model [J ] . JOSA A , 1991 , 8 ( 12 ): 1964 - 1972 .

LIAO L , LI Z , LANG T , et al . UV LED array based NLOS UV turbulence channel modeling and experimental verification [J ] . Optics Express , 2015 , 23 ( 17 ): 21825 - 21835 .

YUAN R Z , MA J S , SU P , et al . An importance sampling method for monte-carlo integration model for ultraviolet communication [C ] // Proceedings of 2019 International Conference on Advanced Communication Technologies and Networking (CommNet) . Piscataway:IEEE Press , 2019 : 1 - 6 .

YUAN R Z , MA J S , SU P , et al . Monte-carlo integration models for multiple scattering based optical wireless communication [J ] . IEEE Transactions on Communications , 2020 , 68 ( 1 ): 334 - 348 .

ELSHIMY M A , HRANILOVIC S . Non-line-of-sight single-scatter propagation model for noncoplanar geometries [J ] . JOSA A , 2011 , 28 ( 3 ): 420 - 428 .

SUN X , ZHANG Z , CHAABAN A , et al . 71-Mbit/s ultraviolet-B LED communication link based on 8-QAM-OFDM modulation [J ] . Optics Express , 2017 , 25 ( 19 ): 23267 - 23274 .

ZUO Y , XIAO H F , WU J , et al . A single-scatter path loss model for non-line-of-sight ultraviolet channels [J ] . Optics Express , 2012 , 20 ( 9 ): 10359 - 10369 .

WU T F , MA J S , YUAN R Z , et al . Single-scatter model for short-range ultraviolet communication in a narrow beam case [J ] . IEEE Photonics Technology Letters , 2019 , 31 ( 3 ): 265 - 268 .

YUAN R Z , MA J S , SU P , et al . An integral model of two-order and three-order scattering for non-line-of-sight ultraviolet communication in a narrow beam case [J ] . IEEE Communications Letters , 2016 , 20 ( 12 ): 2366 - 9 .

XU R , GONG C , XU Z . Pulse-laser based long-range nlos ultraviolet communication:pulse response position estimation and frame synchronization optimization [C ] // Proceedings of 2019 IEEE/CIC International Conference on Communications in China (ICCC) . Piscataway:IEEE Press , 2019 .

YIN H , CHANG S , WANG X , et al . Analytical model of non-line-of-sight single-scatter propagation [J ] . JOSA A , 2010 , 27 ( 7 ): 1505 - 1509 .

WANG L , XU Z Y , SADLER B M . An approximate closed-form link loss model for non-line-of-sight ultraviolet communication in noncoplanar geometry [J ] . Optics Letters , 2011 , 36 ( 7 ): 1224 - 1226 .

DROST R J , MOORE T J , SADLER B M . UV communications channel modeling incorporating multiple scattering interactions [J ] . JOSA A , 2011 , 28 ( 4 ): 686 - 695 .

DING H P , XU Z Y , SADLER B M . A path loss model for non-line-of-sight ultraviolet multiple scattering channels [J ] . EURASIP Journal on Wireless Communications and Networking , 2010 :63.

BORAH D K , MAREDDY V R , VOELZ D G . Single and double scattering event analysis for ultraviolet communication channels [J ] . Optics Express , 2021 , 29 ( 4 ): 5327 - 42 .

DING H P , CHEN G , MAJUMDAR A K , et al . Turbulence modeling for non-line-of-sight ultraviolet scattering channels [C ] // Proceedings of SPIE .[S.l.:s.n. ] , 2011 :80380J.

MA J S , ZHANG J K ,, SU P , YUAN R Z . A new turbulence introduced single scattering model for non-line-of-sight ultraviolet communication [C ] // Proceedings of 2017 16th International Conference on Optical Communications and Networks (ICOCN) . Piscataway:IEEE Press , 2017 : 1 - 3 .

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