基于OSI参考模型的Wimax系统分析与优化
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摘要
20世纪90年代以来,人们开始选择方便、移动性好无接入技术来取代有接入技术决“最后一公里”问。随着WLAN、WPAN等无低速网络技术产生,人们迫切需要一种能在高速移动状态下进行高速传输宽带网络技术。1999年,IEEE成立了IEEE802.16工作组来专门研究宽带无接入技术规范。2004年10月1日,IEEE802.16d发布,并发布了IEE802.16e作为移动性补充,这两种标准合为IEEE802.16-2004。在此基础上,供应商互联互通组织了基于802.16标准无域网技术行业为WiMax技术。随着时间推移,目前研究人员在WiMax系统仿真工具、网络规建设上取了一定成果,也出了一些WiMax网络技术分析方法,但在WiMax网络建成后网络通信性能优分析和安全性能改进上还未出具体方案。本文在总了基于OSI模型WiMAX技术性能研究分析方法基础上,使用将关键性能与实际参数合方法出了衡量WiMax网络通信性能关键指标KPI,并据WiMax系统与3G融合趋势与似性,出了关KPI参考值。并将KPI与用户投诉、网管数据一起作为WiMax系统优工作数据来源,然后据这些数据来源出了应优方案;另一方面据基于OSI模型WiMax技术性能研究分析方法分析了WiMax系统所面临安全威胁和系统漏洞,并在此基础上出了应安全决方案,对WiMax技术安全性能改进出了自己建议。
Since the 1990s, the people start to choose conveniently, the mobilized good tether less access technology to substitute for wireless access technology solution“last kilometer”question. Along with WLAN, WPAN and so on wireless low speed networking production, the people need one kind to carry on the high speed transmission under the high-speed motion condition urgently the broadband network technology. In 1999, IEEE established the IEEE802.16 work team to study the broadband wireless access technology standard specially. On October 1, 2004, IEEE802.16d issued that and had issued IEE802.16e takes the mobilized supplement, these two kinds of standards are called are IEEE802.16-2004. Based on this, the supplier interconnection intercommunication organization named based on 802.16 standard wireless metropolitan area network tech industry names is the WiMax technology. With the lapse of time, the researchers in the WiMax system's emulation tool and in the network planning construction have yielded certain result at present, proposed some WiMax networkings analysis methods, but after the WiMax network completes in the network service performance optimization analysis and safety performance improvement has not proposed the concrete plan. This article in summarizing based on the OSI model's WiMAX technical performance research analysis method's foundation, has used the method which unifies the essential performance and actual parameter to propose weighs the WiMax network service performance key indicator KPI, and according to the WiMax system and 3G integration trend and similarity, has given the related KPI reference value. And KPI and user suit and network management data as the WiMax system optimization data origin of work, then has given together according to these data origins the corresponding optimization plan; On the other hand according to analyzes the security threat and system loophole which based on the OSI model's WiMax technical performance research analysis method the WiMax system has faced, and has given the corresponding secure solution based on this, put forward own proposal to the safety performance improvement of WiMax technology.
Since the 1990s, the people start to choose conveniently, the mobilized good tether less access technology to substitute for wireless access technology solution“last kilometer”question. Along with WLAN, WPAN and so on wireless low speed networking production, the people need one kind to carry on the high speed transmission under the high-speed motion condition urgently the broadband network technology. In 1999, IEEE established the IEEE802.16 work team to study the broadband wireless access technology standard specially. On October 1, 2004, IEEE802.16d issued that and had issued IEE802.16e takes the mobilized supplement, these two kinds of standards are called are IEEE802.16-2004. Based on this, the supplier interconnection intercommunication organization named based on 802.16 standard wireless metropolitan area network tech industry names is the WiMax technology. With the lapse of time, the researchers in the WiMax system's emulation tool and in the network planning construction have yielded certain result at present, proposed some WiMax networkings analysis methods, but after the WiMax network completes in the network service performance optimization analysis and safety performance improvement has not proposed the concrete plan. This article in summarizing based on the OSI model's WiMAX technical performance research analysis method's foundation, has used the method which unifies the essential performance and actual parameter to propose weighs the WiMax network service performance key indicator KPI, and according to the WiMax system and 3G integration trend and similarity, has given the related KPI reference value. And KPI and user suit and network management data as the WiMax system optimization data origin of work, then has given together according to these data origins the corresponding optimization plan; On the other hand according to analyzes the security threat and system loophole which based on the OSI model's WiMax technical performance research analysis method the WiMax system has faced, and has given the corresponding secure solution based on this, put forward own proposal to the safety performance improvement of WiMax technology.
引文
[1]李劼,张勇,王志辉.WiMax技术、应用及网络规划.北京,电子工业出版社,2009.04
[2]GSM原理及其网络优化.北京,机械工业出版社,2009.01
[3]Peter F. Drucker. The Practice of Management. US. Collins Business,1954
[4]WiMAX的安全机制.电信维基网.http://www.telewiki.cn/
[5]Fang Lintang,Zhang Xiaolin.Proportional rate scheduling based on QoS in mobile WiMAX networks.系统工程与电子技术(英文版),2009年6期
[6]范达,曹志刚,易芝玲.WiMAX OFDMA初始测距中的多用户频偏估计.电子与信息学报,2009年11期
[7]吴非,吴明,谢长生.基于IXP2350的WiMAX基站MAC层研究.计算机工程,2008年19期
[8]李宝荣,熊尚坤,陈长怡.移动WiMAX的发展与应用.电信科学,2008年6期
[9]陈如明.WiMAX3G应和谐发展TD-SCDMA需再接再厉再努力.电信技术,2006年1期。
[10]宋俊德,张勇.WiMAX与3G系统融合的思考[J].电视技术,2006卷1期.
[11]张涛,彭木根,王文博. TD- SCDMA与WiMAX联合组网研究[J].电信技术,2005年12期.
[12]王利群,王雪,刘丹,岳振贵.宽带无线接入WiMAX系统组网设计.通信技术,2008年11期
[13]IEEE Std 802.16e. IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed and Mobile Broadband Wireless Access Systems, Amendment 2: Physical and Medium Access Control Layers for Combined Fixed and Mobile Operation in Licensed Bands [S]. 2005
[14]赵钊,权聪敏,宁帆.WiMAX联合组网与应用模式研究.http://www.paper.edu.cn.
[15]3GPP TS 23.228“IP Multimedia Subsystem (IMS),”v.6.5.0,Mar.2004.
[16]骆骥,许方敏,周正.基于IMS的WiMAX和3GPP网络互连.http://www.paper.edu.cn.
[17]何华斌.WiMAX与NGN混合组网的优势,策略和原则.现代通信2007年5-6期。
[18]龙紫薇,刘凯明,刘元安.WiMAX与Mesh组网机制研究.http://www.paper.edu.cn
[19]刘翔宇,郑建宏.基于WIMAX技术的混合组网研究.现代电信科技,2008年2月第2期
[20]马楠,王莹,张平,崔春风,黄宇红.基于OPNET的移动WiMAX网络仿真.计算机系统应用,2006年12期
[21]Yang Y, Hu H, Xu J, Mao G.Relay Technologies for WiMAX and LTE-Advanced Mobile Systems,IEEE Communications Magazine.2009年,第10期,100-105页
[22] Chang, Lin-huang ; Lian, Yo-cheng ; Chien, Yu-hsuan.Priority Based Scheduling in WiMAX System.网际网路技术学刊,143-151页
[23]李建东,陈婷,李长乐.WiMAX中保证QoS的跨层架构研究.西安电子科技大学学报(自然科学版)2009年4期
[24]陈付昌,褚庆昕.应用于WLAN/WiMAX的小型化全向三频天线.华南理工大学学报(自然科学版) 2009年5期
[25]李皓,雷维嘉,谢显中.基于协作分集的WiMAX上行链路性能增强.研究重庆邮电大学学报(自然科学版),2009年1期
[26]章坚武,邹婧媛.WLAN和WiMAX混合组网的切换管理机制.电视技术,2009年9期
[27]张金宝,郑洪明,谈振辉.熊磊MIMO MLD物理层抽象技术.通信学报,2009年11期
[28]张健,戎璐,胡宏林.移动WiMAX系统级仿真建模与分布式实现,应用科学学报,2008年6期
[29]张俊峰.TD-SCDMA与WiMAX对比分析.电子技术应用,2008年6-8期
[30]范异君,陈雪,张治国.EPON与WiMAX融合宽带接入方案的分析比较.光通信技术,2009年3期
[2]GSM原理及其网络优化.北京,机械工业出版社,2009.01
[3]Peter F. Drucker. The Practice of Management. US. Collins Business,1954
[4]WiMAX的安全机制.电信维基网.http://www.telewiki.cn/
[5]Fang Lintang,Zhang Xiaolin.Proportional rate scheduling based on QoS in mobile WiMAX networks.系统工程与电子技术(英文版),2009年6期
[6]范达,曹志刚,易芝玲.WiMAX OFDMA初始测距中的多用户频偏估计.电子与信息学报,2009年11期
[7]吴非,吴明,谢长生.基于IXP2350的WiMAX基站MAC层研究.计算机工程,2008年19期
[8]李宝荣,熊尚坤,陈长怡.移动WiMAX的发展与应用.电信科学,2008年6期
[9]陈如明.WiMAX3G应和谐发展TD-SCDMA需再接再厉再努力.电信技术,2006年1期。
[10]宋俊德,张勇.WiMAX与3G系统融合的思考[J].电视技术,2006卷1期.
[11]张涛,彭木根,王文博. TD- SCDMA与WiMAX联合组网研究[J].电信技术,2005年12期.
[12]王利群,王雪,刘丹,岳振贵.宽带无线接入WiMAX系统组网设计.通信技术,2008年11期
[13]IEEE Std 802.16e. IEEE Standard for Local and metropolitan area networks Part 16: Air Interface for Fixed and Mobile Broadband Wireless Access Systems, Amendment 2: Physical and Medium Access Control Layers for Combined Fixed and Mobile Operation in Licensed Bands [S]. 2005
[14]赵钊,权聪敏,宁帆.WiMAX联合组网与应用模式研究.http://www.paper.edu.cn.
[15]3GPP TS 23.228“IP Multimedia Subsystem (IMS),”v.6.5.0,Mar.2004.
[16]骆骥,许方敏,周正.基于IMS的WiMAX和3GPP网络互连.http://www.paper.edu.cn.
[17]何华斌.WiMAX与NGN混合组网的优势,策略和原则.现代通信2007年5-6期。
[18]龙紫薇,刘凯明,刘元安.WiMAX与Mesh组网机制研究.http://www.paper.edu.cn
[19]刘翔宇,郑建宏.基于WIMAX技术的混合组网研究.现代电信科技,2008年2月第2期
[20]马楠,王莹,张平,崔春风,黄宇红.基于OPNET的移动WiMAX网络仿真.计算机系统应用,2006年12期
[21]Yang Y, Hu H, Xu J, Mao G.Relay Technologies for WiMAX and LTE-Advanced Mobile Systems,IEEE Communications Magazine.2009年,第10期,100-105页
[22] Chang, Lin-huang ; Lian, Yo-cheng ; Chien, Yu-hsuan.Priority Based Scheduling in WiMAX System.网际网路技术学刊,143-151页
[23]李建东,陈婷,李长乐.WiMAX中保证QoS的跨层架构研究.西安电子科技大学学报(自然科学版)2009年4期
[24]陈付昌,褚庆昕.应用于WLAN/WiMAX的小型化全向三频天线.华南理工大学学报(自然科学版) 2009年5期
[25]李皓,雷维嘉,谢显中.基于协作分集的WiMAX上行链路性能增强.研究重庆邮电大学学报(自然科学版),2009年1期
[26]章坚武,邹婧媛.WLAN和WiMAX混合组网的切换管理机制.电视技术,2009年9期
[27]张金宝,郑洪明,谈振辉.熊磊MIMO MLD物理层抽象技术.通信学报,2009年11期
[28]张健,戎璐,胡宏林.移动WiMAX系统级仿真建模与分布式实现,应用科学学报,2008年6期
[29]张俊峰.TD-SCDMA与WiMAX对比分析.电子技术应用,2008年6-8期
[30]范异君,陈雪,张治国.EPON与WiMAX融合宽带接入方案的分析比较.光通信技术,2009年3期