WiFi快速漫游与Mesh网络技术在综采工作面的应用研究
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摘要
针对目前对WiFi通信在综采工作面特定环境下的应用研究较少的问题,结合无线信号空间传播理论分析了WiFi信号在综采工作面的传播特性,分析结果表明:在综采工作面,WiFi信号的传播受到较大影响,尤其是信号覆盖范围明显减小;在综采工作面WiFi无线信号传播符合对数距离路径损耗模型。根据综采工作面的空间布局特点,采用快速漫游和Mesh网络技术构建了无死区、全覆盖的综采工作面WiFi通信网络优选技术方案。测试结果表明,该方案可解决采煤机机载视频通信难题,实现了WiFi网络快速漫游功能,可有效保证移动终端的应用效果,整个网络的平均通信吞吐量约为35 Mbit/s,最低通信吞吐量约为7Mbit/s,能够满足大多数综采工作面的通信需求。
At present,there are problems about few application research of WiFi communication in the specific environment of fully mechanized coal mining face,propagation characteristics of WiFi signal on the fully mechanized coal mining face were analyzed combined with wireless signal spatial propagation theory.The analysis results show that on the fully mechanized coal mining face,the WiFi signal propagation is greatly affected,especially the signal coverage is obviously reduced;the WiFi signal propagation on the fully mechanized coal mining face conforms to log-distance path loss model.According to the spatial layout characteristics of fully mechanized coal mining face,an optimal technical scheme of no-dead zone and full coverage WiFi communication network of fully mechanized coal mining face was constructed by fast roaming technology and Mesh network technology.The test results show that the scheme can solve the problem of video communication on the shearer,and realize fast roaming function of WiFi network,can effectively ensure the application effect of the mobile terminal,and the average communication throughput of the whole network is about 35 Mbit/s,the minimum communication throughput is about 7 Mbit/s,which can meet most of the communication needs on fully mechanized coal mining face.
At present,there are problems about few application research of WiFi communication in the specific environment of fully mechanized coal mining face,propagation characteristics of WiFi signal on the fully mechanized coal mining face were analyzed combined with wireless signal spatial propagation theory.The analysis results show that on the fully mechanized coal mining face,the WiFi signal propagation is greatly affected,especially the signal coverage is obviously reduced;the WiFi signal propagation on the fully mechanized coal mining face conforms to log-distance path loss model.According to the spatial layout characteristics of fully mechanized coal mining face,an optimal technical scheme of no-dead zone and full coverage WiFi communication network of fully mechanized coal mining face was constructed by fast roaming technology and Mesh network technology.The test results show that the scheme can solve the problem of video communication on the shearer,and realize fast roaming function of WiFi network,can effectively ensure the application effect of the mobile terminal,and the average communication throughput of the whole network is about 35 Mbit/s,the minimum communication throughput is about 7 Mbit/s,which can meet most of the communication needs on fully mechanized coal mining face.
引文
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[13]唐国琦.无线Mesh网络在智能电网中的应用研究[D]:北京:北京邮电大学,2016:1-55.
[2]刘伟.基于WiFi无线通信系统在高速铁路中的应用[J].通讯世界,2017(9):127-128.LIU Wei. Application of wireless communication system based on WiFi in the high speed railway[J].Telecom World,2017(9):127-128.
[3]胡瑞.基于WiFi的井下移动智能信息系统研究[D].焦作:河南理工大学,2012:1-72.
[4]王军,顾义东,曾苛,等.WiFi通信技术在煤矿信息化中的应用分析[J].工矿自动化,2017,43(7):90-93.WANG Jun, GU Yidong, ZENG Ke, et al.ApplicationanalysisofWiFicommunication technology in coal mine information[J].Industry and Mine Automation,2017,43(7):90-93.
[5] SONG Wen,WANG Fei,DAI Jianbo,et al.A emergency communication system based on WMN in underground mine[C]//International Conference on Commuter Application and System Modeling,2010:624-627.
[6] PAN Tao, LIUXiaoyang. Hybridwireless communication system using ZigBee and WiFi technology in the coal mine tunnels[C]//Third International Conference on Measuring Technology and Mechatronics Automation,2011:340-343.
[7] PRASANT M,SALIL K,DIETHELM O,et al.Safety assurance and rescue communication systems in high-stress environments:a mining case study[J].IEEE Communications Magazine,2010,48(4):66-67.
[8]姜俊英,马宏伟.采煤机监控技术研究现状与发展趋势[J].煤矿机械,2015,36(8):1-3.JIANG Junying, MAHongwei. Researchand development trends of shearer monitoring and control technology[J].Coal Mine Machinery,2015,36(8):1-3.
[9]孙继平.现代化矿井通信技术与系统[J].工矿自动化,2013,39(3):1-5.SUN Jiping.Modern mine communication technology and system[J].Industry and Mine Automation,2013,39(3):1-5.
[10]潘立波.基于WiFi技术的无线定位算法研究与实现[D].杭州:浙江大学,2013:1-78.
[11]徐茜亮,王维.基于WiFi的漫游切换无缝接入技术研究[J].工矿自动化,2011,37(3):6-8.XU Xiliang,WANG Wei.Research of technology of seamless access in roaming handoff based on WiFi[J].Industry and Mine Automation,2011,37(3):6-8.
[12]滕劲,徐昌庆.WiFi中多AP间快速切换的研究与实现[J].通信技术,2009,42(11):121-123.TENG Jin, XUChangqing. Studyand implementation of fast inter-AP handoffs in WiFi WLAN[J]. Communication Technology,2009,42(11):121-123.
[13]唐国琦.无线Mesh网络在智能电网中的应用研究[D]:北京:北京邮电大学,2016:1-55.
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