| 1. | Transport modeling of optical transport network nodes 光传送网节点传输模型的讨论 |
| 2. | Route modeling of optical transport network nodes 光传送网otn节点的路由模型 |
| 3. | Research of otn s optical cross - connect architecture 全光传送网的光交叉连接节点的结构分析 |
| 4. | Research on survivability of optical transmission network based on wdm 技术光传送网的生存性分析 |
| 5. | Wdm techincal requirements for metropolitan optical transport network wdn ring 城市光传送网波分复用 |
| 6. | Optical transport network ; route model ; optical cross - connect ; optical add drop multiplexer 光传送网路由模型光交叉互连光分插复用 |
| 7. | Optical transport network ; transmission model ; optical cross - connector ; optical add drop multiplexer 光传送网传输模型光交叉互连光分插复用 |
| 8. | At last , the multicast routing in wdm optical networks is discussed and raw ( routing and assignment of wavelength ) problems are summarized 最后,研究了wdm光传送网中的多播路由问题,并总结了现有的几种多播光网络中的路由和波长分配算法。 |
| 9. | Therefore all - optical networks based on the concept of wdm and wavelength routing rwa ( routing and wavelength asignment , rwa ) is considered as a candidate for the next generation transport network 因此利用wdm传输技术以及选路和波长分配rwa ( routingandwavelengthalgorithm , rwa )技术的光传送网是下一代高速骨干网最具竞争力的候选者。 |
| 10. | First , an analysis of present research situation was given in chapter 1 . second , a summary of the relating concepts and technology of optical network survivability was given in chapter 2 , which is the fundamental for farther discussion 然后对网络生存性的概念、光传送网的分层及节点结构以及光传送网生存性的基本技术进行了总结,为以后各章节的讨论提供了理论基础。 |