1) Hybrid Passive Optical Network (HPON)
混合无源光网络
2) Hyb
无线混合无源光网络
1.
The main contributions of this paper are as the followings:(1) Based on the research of hybrid passive optical network architecture, a novel classification method is proposed that divided the Hybrid-PON into two catalog: Wavelength-Fixed type and Wavelength-Assignment type.
(5)研究了无源光网络和无线网状网融合构成的无线混合无源光网络技术及其架构,并提出了一种新颖的基于遗传算法的无线混合无源光网络布局算法,仿真结果表明可以实现对混合网络的良好布局。
3) PON
无源光网络
1.
Discussion of BXPON transmission system;
浅谈BXPON无源光网络传输系统—在农村电信网改造中的应用
2.
Relations of PON Networking Way with Construction Cost;
无源光网络的组网方式与建设运营成本的关系分析
3.
Talking about the Application of Passive Optical Network (PON) in Broadband Service Access (BSA);
浅谈无源光网络在宽带业务接入的应用
4) passive optical network(PON)
无源光网络
1.
The application of passive optical network(PON) in Shanghai Electric Power;
无源光网络(PON)在上海电力中的组网应用
2.
First of all this paper briefly introduces the development situation and main application of the broadband access network technology,emphatically introduces the characteristic and development prospects of the Passive Optical Network(PON),and then analyzes the technical choice of electric power a.
首先简要介绍宽带接入网技术的发展现状和主要应用,重点介绍了无源光网络(PON)的特点和发展前景;结合电力通信网的现状探讨了电力通信接入网的技术选择,指出将有源和无源宽带光纤接入技术相结合,可以作为电力通信建设接入网的技术策略,对电力通信网的光纤化起到积极的推动作用。
3.
Optical code division multiple access(OCDMA) is a preferable candidate technology for the next-generation passive optical network(PON) because of its distinct advantages such as asynchronous multiple access,flexible bandwidth assignment and its simplicity to provide access and routing operations in a common channel without switch.
基于光码分复用(OCDMA)的无源光网络(PON)具有异步接入、带宽分配灵活、接入路由控制简单等优点而成为下一代PON的最佳候选方案之一。
5) passive optical network
无源光网络
1.
Research on a novel hybrid WDM/TDM passive optical network architecture;
一种新型混合WDM/TDM的无源光网络系统研究
2.
To Develop the County-level CATV Network by Passive Optical Network
用无源光网络改造县级有线电视网络
3.
This paper described the system model of WDM passive optical network with wavelength shared.
介绍了波长共享的波分复用无源光网络系统模型。
补充资料:光中子源
分子式:
CAS号:
性质:采用放射性核素放出的γ光子轰击靶核而产生中子的源。常用的124Sb-9Be源。其优点是价格低廉,生产简便,产生的中子是单能的,可再生。
CAS号:
性质:采用放射性核素放出的γ光子轰击靶核而产生中子的源。常用的124Sb-9Be源。其优点是价格低廉,生产简便,产生的中子是单能的,可再生。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条