光开关是全光网络中的关键器件。
在未来全光网络中有着很大的应用前景。
光交叉连接器OXC是实现全光网络的核心器件。
光交换技术是未来全光网络(AON)中的关键技术。
Photonic switching is a key technology in the future All Optical Network (AON).
该类器件在未来全光网络和集成光路中具有良好的应用前景。
This device has exciting applications in future all optical networks and integrated optical circuits.
可调谐波长转换器在DWDM全光网络中具有举足轻重的作用。
The tunable wavelength converter plays an important roll in dense wavelength division multiplexing(DWDM) all optical network.
光波导是集成光学的基本单元,同时也是全光网络传输的基础。
Optical waveguide is the base structure of integrated optics and the holo-optical network.
在全光网络日渐成熟的情况下,全光IP网络成为NGN的骨干网络。
In a situation that ALL-OPTICAL network are ripe day by day, all optical IP networks become key networks of NGN.
首先,从光开关在全光网络的应用出发,比较了各种光开关技术的性能。
Firstly, from the application of optical switch in AON, a variety of optical switch technologies are being compared.
光纤放大器是实现全光网络的关键性部件,目前广泛使用掺铒光纤放大器。
Fiber amplifier is one of the key components to realize all optical fiber communication network. Erbium-doped fiber amplifier is applied widely just now.
研究出一种最优的WDM光网络生存策略,是未来全光网络组网的重要方面之一。
The paper gives a most optimized survival strategy of WDM mesh network, which is one of important issues in optical network.
人们对于高速光信息网络提出越来越高的要求,于是人们提出了全光网络的概念。
To meet the ever-demanding standards for optical telecommunication network, people have proposed the concept of all-optical network.
该方法简单、可靠,将会对可调谐激光器在全光网络中的应用起到一定的推动作用。
This simple, effective stabilization method will play an important role in obtaining highly reliable light sources for optical network.
分析了全光网络分布式攻击定位算法,构建了全光网络攻击定位与恢复的仿真平台。
In all-optical networks, distributed algorithms for attack localization was analyzed, and an all-optical network simulation platform was constructed for attack localization and resumption.
在全光网络中,如何合理利用波长转换来降低光网络的阻塞率是一个非常关键的问题。
How to utilize wavelength conversion is the key factor in improving the blocking performance in wavelength routed all optical networks.
简单描述了网络新技术的应用前景;提出了如何实现从现有网络向未来全光网络的过渡。
It briefly describes application prospects of new network technology, and presents how to transform from current network to future all optical network.
全光网络(AON)可以经济有效地增加光纤通信系统容量,已成为各国专家研究热点。
All optical Network (AON) which attracts the attention of the experts all over the world can augment the capacity of optical fiber communication economically and effectively.
在目前的信息技术与产业飞速发展的情况下,新一代IP网络、3g和全光网络已经开始实施。
In a situation that present information technology and industry are developed at full speed, IP network, 3g and ALL-OPTICAL network of new generation have already begun to implement.
光交叉互连是全光网络技术中的关键技术之一,而其核心技术就是可用于交叉互连的高性能光开关。
OXC, Optical cross Connector, is one of the most important technologies in AON, and one of its core technology is high powered optical switching which can be used for OXC .
作为实现全光网络的一种最有前途的方案之一,光码分复用(OCDM)系统正日益引起人们的关注。
As one of the most prospect schemes for all-optical networks realization, optical code division multiplex (OCDM) system arose people's attention increasingly.
EDFA不仅会在长途干线中广泛使用,也必然将会在接入网和未来的全光网络中扮演越来越重要的角色。
EDFA will be widely used in toll backbone network, and also will be important part in access network and the future full optical network.
光纤光栅作为光通信继掺铒光纤放大器之后的又一次突破,它的出现使许多复杂的全光网络通信成为了可能。
Fiber grating is another great breakthrough in optical communications area following the progress of EDFA. Its appearance makes all complex optical networks possible.
详细论述了光控光开关在全光网络中的各种应用,并通过分析和论述指出光控光开关将在未来的大容量全光网络中发挥关键作用。
We also discuss its applications in all-optical net in detail. We point out that optical controlled optical switch will be key component in future bulky optical net.
光耦合技术是光通信、光传感以及光集成领域中的关键技术,在未来的全光网络中占据有重要的地位,因此对光耦合理论进行研究是很必要的。
The optical coupling technology is the key technology in optical communication, optical sensor and optical integration, and it will hold the primary status in optical networks in the future.
本文介绍了全光网络的组成结构,及攻击光网络的几种手段,分析了现存的攻击测试方法,讨论了光纤传感技术在全光网络攻击测试方法中的应用。
Current attack detection methods for all-optical networks were analyzed, and applications of optical fiber sensing technique were discussed in attack detection methods for all-optical networks.
光交叉连接器件(OXC)是实现WDM全光网络的关键器件,但由于其自身的链路和信号相互作用,会产生严重的串扰问题,从而限制了OXC性能的充分发挥。
As a key device for the realization of WDM-based all-optical network, OXC (optical cross connection) device is plagued with severe crosstalk problem caused by the interaction of its signal and link.
它主要用于光网络的光交叉(OXC)节点系统中,用来实现全光层次的路由选择、波长选择、光交叉连接等功能。
Optical switch is chiefly used in OXC (optical Cross Connection) system in optical network. It can fulfill many functions such as routing, selecting optical wavelength and OXC etc.
基于波长路由的WDM全光网是下一代高速宽带光纤网络的首选技术,如何对它进行有效而灵活的管理是目前研究的热点。
WDM all optical networks using wavelength routing represent the most promising solution for future high capacity fiber networks and how to manage it efficiently and flexibly is a hot spot.
光网络中的闭合全光环路在一定条件下会形成环路激射,对网络造成不利的影响。
Closed all optical cycles in optical networks may generate lasing which adversely affects network performance.
光开关是光网络中完成全光交换的核心器件,它的研究日益成为全光通信领域关注的焦点。
In all optical networks, as the kernel part of instruments used to accomplish all optical interchange, optical switch is being a focus of research in all optical communication.
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