Performance analysis of MIMO communication system with NLOS UV channel

IF 0.5 Q4 OPTICS

Photonics Letters of Poland Pub Date : 2020-12-17 DOI:10.4302/PLP.V12I4.985

G. Vasilyev, O. Kuzichkin, D. Surzhik

{"title":"Performance analysis of MIMO communication system with NLOS UV channel","authors":"G. Vasilyev, O. Kuzichkin, D. Surzhik","doi":"10.4302/PLP.V12I4.985","DOIUrl":null,"url":null,"abstract":"Performance analysis is carried out, of a multiple input, multiple output (MIMO) ultraviolet (UV) communication system with a non-line-of-sight (NLOS) UV channel. The achievable bit error coefficient is calculated using three spatial multiplexing methods for different bitrate values, azimuthal deviation between the directional diagrams of an optical transmitter and an optical receiver, and different noise levels. Full Text: PDF ReferencesZ. Xu, B. Sadler, \"Ultraviolet communications: potential and state-of-the-art\", IEEE Commun. Mag. 4667-73 (2009). CrossRef D. Han, Y. Liu, K. Zhang et al., \"Theoretical and experimental research on diversity reception technology in NLOS UV communication system\", Opt. Expr. 20(14), 15833 (2012). CrossRef Q. Guo, N. He, Z. He, \"Research on the channel performances and transmission in UV-LED scatter communications\", Study Opt. Comm. 3, 64 (2013). DirectLink G. Chen, L. Liao, Z. Li et al., \"Experimental and simulated evaluation of long distance NLOS UV communication\", Communication Systems, Networks and Digital Signal Processing (CSND-SP), 9th Int. Symp. on IEEE, 904-909 (2014). CrossRef M.A. El-Shimy, S. Hranilovic, \"Spatial-Diversity Imaging Receivers for Non-Line-of-Sight Solar-Blind UV Communications\", J. Lightwave Techn. 33(11), 2246 (2015). CrossRef G. Shaw, M. Nischan, M. Iyengar, S. Kaushik, M. Griffin, NLOS UV communication for distributed sensor systems, Proc. SPIE 412683, 96 (2000). CrossRef I.S. Konstantinov, G.S. Vasyliev, O.R. Kuzichkin, D.I. Surzhik, I.A. Kurilov, S.A. Lazarev, \"AUV Link Mobile Ad-Hoc Network Examination\", J. Eng. Adv. Techn. 8(5S) July 2019 CrossRef I.S. Konstantinov, G.S. Vasilyev, O.R. Kuzichkin, I.A. Kurilov, S.A. Lazarev, \"Modeling and Analysis of the Characteristics of Ultraviolet Channels under Different Conditions of Radiation Propagation for the Organization of Wireless AD-HOC Network\", J. Adv. Res. Dynam. Contr. Syst. 07, 1853 (2018) DirectLink I.S. Konstantinov, G.S. Vasyliev, O.R. Kuzichkin, D.I. Surzhik, I.A. Kurilov, S.A. Lazarev, \"Development Of Uv Communication Channels Characteristics Modeling Algorithm In A Mobile Ad-Hoc Network\", J. Adv. Res. Dynam. Contr. Syst. 11(08), 1920 (2019). CrossRef G. Chen, F. Abou-Galala, Z. Xu, B.M. Sadler, \"Experimental evaluation of LED-based solar blind NLOS communication links\", Opt. Expr. 16(19), 15059 (2008). CrossRef","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":" ","pages":""},"PeriodicalIF":0.5000,"publicationDate":"2020-12-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Photonics Letters of Poland","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.4302/PLP.V12I4.985","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"OPTICS","Score":null,"Total":0}

引用次数: 0

Abstract

Performance analysis is carried out, of a multiple input, multiple output (MIMO) ultraviolet (UV) communication system with a non-line-of-sight (NLOS) UV channel. The achievable bit error coefficient is calculated using three spatial multiplexing methods for different bitrate values, azimuthal deviation between the directional diagrams of an optical transmitter and an optical receiver, and different noise levels. Full Text: PDF ReferencesZ. Xu, B. Sadler, "Ultraviolet communications: potential and state-of-the-art", IEEE Commun. Mag. 4667-73 (2009). CrossRef D. Han, Y. Liu, K. Zhang et al., "Theoretical and experimental research on diversity reception technology in NLOS UV communication system", Opt. Expr. 20(14), 15833 (2012). CrossRef Q. Guo, N. He, Z. He, "Research on the channel performances and transmission in UV-LED scatter communications", Study Opt. Comm. 3, 64 (2013). DirectLink G. Chen, L. Liao, Z. Li et al., "Experimental and simulated evaluation of long distance NLOS UV communication", Communication Systems, Networks and Digital Signal Processing (CSND-SP), 9th Int. Symp. on IEEE, 904-909 (2014). CrossRef M.A. El-Shimy, S. Hranilovic, "Spatial-Diversity Imaging Receivers for Non-Line-of-Sight Solar-Blind UV Communications", J. Lightwave Techn. 33(11), 2246 (2015). CrossRef G. Shaw, M. Nischan, M. Iyengar, S. Kaushik, M. Griffin, NLOS UV communication for distributed sensor systems, Proc. SPIE 412683, 96 (2000). CrossRef I.S. Konstantinov, G.S. Vasyliev, O.R. Kuzichkin, D.I. Surzhik, I.A. Kurilov, S.A. Lazarev, "AUV Link Mobile Ad-Hoc Network Examination", J. Eng. Adv. Techn. 8(5S) July 2019 CrossRef I.S. Konstantinov, G.S. Vasilyev, O.R. Kuzichkin, I.A. Kurilov, S.A. Lazarev, "Modeling and Analysis of the Characteristics of Ultraviolet Channels under Different Conditions of Radiation Propagation for the Organization of Wireless AD-HOC Network", J. Adv. Res. Dynam. Contr. Syst. 07, 1853 (2018) DirectLink I.S. Konstantinov, G.S. Vasyliev, O.R. Kuzichkin, D.I. Surzhik, I.A. Kurilov, S.A. Lazarev, "Development Of Uv Communication Channels Characteristics Modeling Algorithm In A Mobile Ad-Hoc Network", J. Adv. Res. Dynam. Contr. Syst. 11(08), 1920 (2019). CrossRef G. Chen, F. Abou-Galala, Z. Xu, B.M. Sadler, "Experimental evaluation of LED-based solar blind NLOS communication links", Opt. Expr. 16(19), 15059 (2008). CrossRef

查看原文本刊更多论文

具有NLOS UV信道的MIMO通信系统性能分析

对具有非直瞄（NLOS）紫外信道的多输入多输出（MIMO）紫外（UV）通信系统进行了性能分析。对于不同的比特率值、光发射机和光接收机的方向图之间的方位角偏差以及不同的噪声水平，使用三种空间复用方法来计算可实现的比特误差系数。全文：PDF参考Z。徐，B.萨德勒，“紫外线通信：潜力和最先进技术”，IEEE通讯社。杂志4667-73（2009）。韩，刘，张等，“非直瞄紫外通信系统分集接收技术的理论与实验研究”，Opt。Expr。20（14），15833（2012）。郭，何，何，“UV-LED散射通信信道性能与传输的研究”，研究选择。通信3，64（2013）。DirectLink G.Chen，L.Liao，Z.Li等，“长距离非直瞄紫外通信的实验与仿真评估”，通信系统、网络与数字信号处理（CSND-SP），第九届国际学术研讨会。关于IEEE，904-909（2014）。CrossRef M.A.El Shimy，S.Hranilovic，“用于非视线日盲紫外线通信的空间分集成像接收器”，光波技术杂志，33（11），2246（2015）。CrossRef G.Shaw，M.Nischan，M.Iyengar，S.Kaushik，M.Griffin，分布式传感器系统的非直瞄紫外通信，Proc。SPIE 412683，96（2000）。CrossRef I.S.Konstantinov，G.S.Vasyliev，O.R.Kuzichkin，D.I.Surzhik，I.A.Kurilov，美国Lazarev，“AUV链接移动Ad-Hoc网络检查”，J.Eng.Adv.Techn，8（5S）2019年7月，“无线AD-HOC网络组织中不同辐射传播条件下紫外线信道特性的建模和分析”，J.Adv.Res.Dynam。对照。系统。071853（2018）DirectLink I.S.Konstantinov，G.S.Vasyliev，O.R.Kuzichkin，D.I.Surzhik，I.A.Kurilov，美国Lazarev，“移动Ad-Hoc网络中Uv通信信道特性建模算法的开发”，J.Adv.Res.Dynam。对照。系统。1920（2019）年11月8日。CrossRef G.Chen，F.Abou Galala，Z.Xu，B.M.Sadler，“基于LED的日盲非直瞄通信链路的实验评估”，Opt。Expr。16（19），15059（2008）。CrossRef

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Photonics Letters of Poland OPTICS-

CiteScore

1.40

自引率

0.00%

发文量