本地传输基础承载网络规划规程研究
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摘要
传送网作为整个电信网络的基础,是构建信息传输系统的一个重要环节。随着计算机技术的快速发展,客户端业务需求不断的多样化,对承载网络的性能要求也在不断提高。
城域传送网的基础主要是汇聚机房、管道、光缆三大基础物理网。2009年以来,广东移动各本地网均开始了大规模的基础网络规划建设工作,但是长期以来三大基础物理网都是相对独立规划的,并没有形成系统。而随着网络资源和用户数量逐年增加,业务需求的迅速扩大,基础网络规划工作面临新的形势。由于基础网络资源建设是一个对业务、技术、成本十分敏感的领域。同时,传输局房及管线网建设环境又十分复杂,使得当前的宽带接入网建设带有很大的盲目性,投资风险进一步加大。
为从全盘布局入手,尽量避免重复性建设与投资同时兼顾技术可行性,本文从理论分析出发,结合实际工程应用的需要,特对基础网络规划建设模型及规划规程进行研究。
本文给出宽带接入网和基站接入网的理论模型,并在理论模型的基础上进行仿真分析。
介绍了本地传输基础承载网络规划规程的规划目标,并在规划目标的基础上,进一步给出了汇聚机房、光缆网以及管道网的总体规划原则。
给出了基础网规划的总体流程。并在本地传输基础承载网络规划规程的理论模型、规划原则及规划流程内容的基础上,给出了具体的规划呈现及输出流程。输出以效果图的形式给出。
本文的研究形成了初步的网络成果模型和规划规程,为后续提升传送网规划的规范性、可靠性、经济性打下了坚实的理论基础。
Transmission network as the basis for the entire telecommunications network, it is an important part to build the information transmission system. With the rapid development of computer technology and the diversification of the client demand for the business, the bearing network performance requirements are also rising.
Metro Transmission Network is based primarily on three basic physical networks:gathering room, pipeline and cable. Since 2009, Guangdong Mobile have started the large-scale work for planning and construction of basic network, but a long time the three physical network are planning independently, and no system. With the numbers of network resources and users increase every year and the rapidly expanding of business needs, the work for basic network planning get new opportunities. Basic network resource construction is a sensitive area for business, technology and cost. Meanwhile, the transmission housing and the pipeline network construction environment is very complex, making the construction of the current broadband access network with a lot of blindness, and further increases the investment risk.
For the global consideration and avoiding repetitive construction and investment and taking into account the technical feasibility, this paper from the theoretical analysis and combining with the needs of practical application, especially researches the network model for planning and construction and planning procedures.
In this paper, it shows the theoretical model of broadband access network and base stations access network and makes a simulation based on the theoretical model.
Description the planning goals of local basic transport network planning procedures and further the general planning principles of convergence room, cable network and pipeline network on the basis of planning objectives.
The paper shows the overall process of basic network planning and the detail planning presentation and output processes based on the theoretical model, planning principles and the content of planning process of the local transmission network planning procedures. Lastly,it gives the output in the form of renderings.
The study in this paper forms the preliminary network models and network protocols, which makes a solid theoretical foundation for follow-up enhancing normative, reliability, economy of transmission network planning.
城域传送网的基础主要是汇聚机房、管道、光缆三大基础物理网。2009年以来,广东移动各本地网均开始了大规模的基础网络规划建设工作,但是长期以来三大基础物理网都是相对独立规划的,并没有形成系统。而随着网络资源和用户数量逐年增加,业务需求的迅速扩大,基础网络规划工作面临新的形势。由于基础网络资源建设是一个对业务、技术、成本十分敏感的领域。同时,传输局房及管线网建设环境又十分复杂,使得当前的宽带接入网建设带有很大的盲目性,投资风险进一步加大。
为从全盘布局入手,尽量避免重复性建设与投资同时兼顾技术可行性,本文从理论分析出发,结合实际工程应用的需要,特对基础网络规划建设模型及规划规程进行研究。
本文给出宽带接入网和基站接入网的理论模型,并在理论模型的基础上进行仿真分析。
介绍了本地传输基础承载网络规划规程的规划目标,并在规划目标的基础上,进一步给出了汇聚机房、光缆网以及管道网的总体规划原则。
给出了基础网规划的总体流程。并在本地传输基础承载网络规划规程的理论模型、规划原则及规划流程内容的基础上,给出了具体的规划呈现及输出流程。输出以效果图的形式给出。
本文的研究形成了初步的网络成果模型和规划规程,为后续提升传送网规划的规范性、可靠性、经济性打下了坚实的理论基础。
Transmission network as the basis for the entire telecommunications network, it is an important part to build the information transmission system. With the rapid development of computer technology and the diversification of the client demand for the business, the bearing network performance requirements are also rising.
Metro Transmission Network is based primarily on three basic physical networks:gathering room, pipeline and cable. Since 2009, Guangdong Mobile have started the large-scale work for planning and construction of basic network, but a long time the three physical network are planning independently, and no system. With the numbers of network resources and users increase every year and the rapidly expanding of business needs, the work for basic network planning get new opportunities. Basic network resource construction is a sensitive area for business, technology and cost. Meanwhile, the transmission housing and the pipeline network construction environment is very complex, making the construction of the current broadband access network with a lot of blindness, and further increases the investment risk.
For the global consideration and avoiding repetitive construction and investment and taking into account the technical feasibility, this paper from the theoretical analysis and combining with the needs of practical application, especially researches the network model for planning and construction and planning procedures.
In this paper, it shows the theoretical model of broadband access network and base stations access network and makes a simulation based on the theoretical model.
Description the planning goals of local basic transport network planning procedures and further the general planning principles of convergence room, cable network and pipeline network on the basis of planning objectives.
The paper shows the overall process of basic network planning and the detail planning presentation and output processes based on the theoretical model, planning principles and the content of planning process of the local transmission network planning procedures. Lastly,it gives the output in the form of renderings.
The study in this paper forms the preliminary network models and network protocols, which makes a solid theoretical foundation for follow-up enhancing normative, reliability, economy of transmission network planning.
引文
[1]Skubic, B, Jiajia Chen, Ahmed, J., Wosinska, L., Mukherjcc, B., Ericsson Res., Plano, TX. A comparison of dynamic bandwidth allocation for EPON, GPON, and next-generation TDM PON[J] Communications Magazine, IEEE,2009, 47(3):S40-S48
[2]Stamatios V. Kartalopoulos. Next Generation SONET/SDH[J]. Next Generation Intelligent Optical Networks,S,2008,101-128
[3]H Holler, B Melian. Applying the pilot method to improve VNS and GRASP metaheuristics for the design of SDH/WDM networks[J]. European Journal of Operational Research,2008,191(3):691-704
[4]B Mukherjee. Optical WDM networks[M].Springer,2006
[5]王玉宝,樊晓宇IP over WDM光网络技术及其实现方案[J].光通信技术2008,3:14-16
[6]施宇星,车军.基于MSTP的城域传送网组网与应用[J].计算机与数字工程,2010,2:182-186
[7]L Ying. Advantage of MSTP in the Fiber Access Networks[J]. Guangxi Communication Technology,2008,03
[8]代红英,汪仲清.光纤孤立子与光孤子通信[J].重庆邮电学院学报(自然科学版);2004年06期
[9]刘俭辉,丁永奎,贾东方,李世忱.Tbit/s超大容量光纤通信系统的研究进展[J].光学技术,2003,4:405-410
[10]张优训,王云.全业务运营背景下宽带接入网发展策略探讨[J].移动通信,2009,01
[11]王庆,程博雅.光纤接入网规划设计手册[M].人民邮电出版社,2009,8
[12]张优训,张宗勇,姚海鸥,叶浩颖,张华荣等.广州移动十一期本地传输网可行性研究报告,2009
[13]苏欢欢,张优训.基于PON的FTTx网络设计方法研究[J].移动通信,2009,15
[14]陈烈辉,左建,任艳.FTTx ODN网络规划与建设研究[J].广东通信技术,2006,09
[15]陈烈辉,左建,任艳.FTTx网络规划原则与流程研究[J].广东通信技术,2006,08
[16]陈烈辉,左建,任艳FTTx网络建设方法研究[J].广东通信技术,2006,09
[17]张明德.光纤通信原理与系统(第3版)[M].南京:东南大学出版社,2003.
[18]李玲.光纤通信[M].北京:人民邮电出版社,1995.
[19]梁厦,宽带接入FTTH发展之路[J].广西通信技术,2009,3:23-26
[20]光纤到户(FTTH)体系结构和总体要求(YD/T 1636-2007).
[21]马琳,荆瑞泉.PTN技术的发展与应用探讨[J].电信网技术,2010,8:1-7
[22]高瞻.PTN网络规划方法探讨[J].通信与信息技术,2010
[23]HYZ Ao. Trend of New Technologies for Packet Transport Network of Next Generation[J]. elecom Engineering Technics and Standardization,2007
[24]Feng Huang, Xiaobo Yi, Hanzheng Zhang, and Ping Gong.Packet transport network in metro[J] Proceedings of SPIE,2008,
[25]接入网技术要求——EPON/GPON系统承载多业务(YD/T1953-2009).
[26]臧志宏,朱锐.本地传输网络优化问题浅析[J].邮电设计技术,2004,(5).
[27]E Dahlman, S Parkvall, D Astley, A Furuskar. LTE:The Evolution of Mobile Broadband[J]. IEEE Communications,2009
[28]Dong, J. Lu, Z.Cao, and L.Chen. Low-cost optical line terminal for a WDM-PON compatible with radio-over-fiber systems[J]. Journal of Optical Networking,2009,8(3):244-248
[29]广东公司宽带接入网规划建设指导意见(2009年版)(粤移[2009]536号)
[30]Marek Hajduczenia, Henrique J. da Silva, and Paulo P. Monteiro. EPON versus APON and GPON:a detailed performance comparison[J]. Journal of Optical Networking,2006,5(4):298-319
[31]沈成彬,王成巍,蒋铭,王波.下一代PON技术的进展与应用[J].电信科学,2010,8:1-7
[2]Stamatios V. Kartalopoulos. Next Generation SONET/SDH[J]. Next Generation Intelligent Optical Networks,S,2008,101-128
[3]H Holler, B Melian. Applying the pilot method to improve VNS and GRASP metaheuristics for the design of SDH/WDM networks[J]. European Journal of Operational Research,2008,191(3):691-704
[4]B Mukherjee. Optical WDM networks[M].Springer,2006
[5]王玉宝,樊晓宇IP over WDM光网络技术及其实现方案[J].光通信技术2008,3:14-16
[6]施宇星,车军.基于MSTP的城域传送网组网与应用[J].计算机与数字工程,2010,2:182-186
[7]L Ying. Advantage of MSTP in the Fiber Access Networks[J]. Guangxi Communication Technology,2008,03
[8]代红英,汪仲清.光纤孤立子与光孤子通信[J].重庆邮电学院学报(自然科学版);2004年06期
[9]刘俭辉,丁永奎,贾东方,李世忱.Tbit/s超大容量光纤通信系统的研究进展[J].光学技术,2003,4:405-410
[10]张优训,王云.全业务运营背景下宽带接入网发展策略探讨[J].移动通信,2009,01
[11]王庆,程博雅.光纤接入网规划设计手册[M].人民邮电出版社,2009,8
[12]张优训,张宗勇,姚海鸥,叶浩颖,张华荣等.广州移动十一期本地传输网可行性研究报告,2009
[13]苏欢欢,张优训.基于PON的FTTx网络设计方法研究[J].移动通信,2009,15
[14]陈烈辉,左建,任艳.FTTx ODN网络规划与建设研究[J].广东通信技术,2006,09
[15]陈烈辉,左建,任艳.FTTx网络规划原则与流程研究[J].广东通信技术,2006,08
[16]陈烈辉,左建,任艳FTTx网络建设方法研究[J].广东通信技术,2006,09
[17]张明德.光纤通信原理与系统(第3版)[M].南京:东南大学出版社,2003.
[18]李玲.光纤通信[M].北京:人民邮电出版社,1995.
[19]梁厦,宽带接入FTTH发展之路[J].广西通信技术,2009,3:23-26
[20]光纤到户(FTTH)体系结构和总体要求(YD/T 1636-2007).
[21]马琳,荆瑞泉.PTN技术的发展与应用探讨[J].电信网技术,2010,8:1-7
[22]高瞻.PTN网络规划方法探讨[J].通信与信息技术,2010
[23]HYZ Ao. Trend of New Technologies for Packet Transport Network of Next Generation[J]. elecom Engineering Technics and Standardization,2007
[24]Feng Huang, Xiaobo Yi, Hanzheng Zhang, and Ping Gong.Packet transport network in metro[J] Proceedings of SPIE,2008,
[25]接入网技术要求——EPON/GPON系统承载多业务(YD/T1953-2009).
[26]臧志宏,朱锐.本地传输网络优化问题浅析[J].邮电设计技术,2004,(5).
[27]E Dahlman, S Parkvall, D Astley, A Furuskar. LTE:The Evolution of Mobile Broadband[J]. IEEE Communications,2009
[28]Dong, J. Lu, Z.Cao, and L.Chen. Low-cost optical line terminal for a WDM-PON compatible with radio-over-fiber systems[J]. Journal of Optical Networking,2009,8(3):244-248
[29]广东公司宽带接入网规划建设指导意见(2009年版)(粤移[2009]536号)
[30]Marek Hajduczenia, Henrique J. da Silva, and Paulo P. Monteiro. EPON versus APON and GPON:a detailed performance comparison[J]. Journal of Optical Networking,2006,5(4):298-319
[31]沈成彬,王成巍,蒋铭,王波.下一代PON技术的进展与应用[J].电信科学,2010,8:1-7