智能光网络

智能光网络中Agent系统的设计与实现

Design and Realization of Agent System in ASON

智能光网络的应用与网络演进

The Application of ASON and Network Evolution

在GMPLS/ASON多层多域智能光网络中，流量工程（TrafficEngineering，TE）的引入有效地提高了网络中资源的利用率。

Traffic engineering ( TE ) effectively improves resource utilization in GMPLS / ASON multi-layer multi-domain optical networks .

WDM智能光网络与IP业务

WDM Intelligent Optical Networks and IP Service

面向电力ICT的智能光网络保护与恢复机制研究

Research on ASON protection and restoration mechanism in power smart optical network

文章介绍了NGN的三大核心技术，即软交换技术、智能光网络、IPv6协议。

Three important technologies of NGN are soft-switch , intelligence optical network , IPv6 protocol .

智能光网络（ASON）的关键技术及发展策略

Intelligent Optical Network ( ASON ) and the key technology development strategy

基于OSPF的智能光网络路由协议研究

Research on Routing Protocol of Intelligent Optical Network Based on OSPF

智能光网络（ION）的出现不仅满足了飞速增长的带宽需求，而且契合了数据业务的突发特性。

The appearance of intelligent optical networks ( ION ) not only meets the increasing needs of bandwidth , but also copes well with the burst data traffic .

自动交换光网络（ASON）是智能光网络发展过程中较有前途的网络结构。

Automatically Switched Optical Network ( ASON ) is a promising network infrastructure .

用于智能光网络自动发现机制的LMPMIB扩展

LMP MIB extension used for the automatic discovery in intelligent optical network

ITU-T和IETF智能光网络的标准化工作进展

Progress on AON Standards of ITU-T and IETF

智能光网络信令协议研究和LMP协议实现

Study on Intelligent Optical Network Signaling Protocol and LMP Implementation

GMPLS智能光网络中波长路由器的研究

Research on Wavelength Router in GMPLS Intelligent Optical Networks

因此，基于SDH体制的光网络如何向智能光网络演进是业界非常关注的问题。

So , it is a very concerned question how the optical network base on SDH system evolve to intelligent light network .

智能光网络中的OAM系统分析与设计

OAM system analysis and design of intelligent optical network

随着3G业务的广泛开展，对传输网络的动态，灵活需求越来越强烈，智能光网络也必将成为3G传输网络发展的重要条件。

It need more and more powerful internet which transmit dynamically , flexibly . intelligence optical net must be important condition that 3G transmitting internet develop .

智能光网络（ASON）被普遍认为是下一代传输网络的发展方向。

Automatic switch optical network ( ASON ) is considered to be the new direction of the next transmit network .

论文首先简要介绍了智能光网络的概念和一种基于GMPLS的智能光网络控制面协议体系的实现。

Firstly the thesis briefly introduces the concepts of ION and ION control plane protocols based on GMPLS .

随着新型智能光网络的出现，基于智能光传送网络的新型VPN技术已成为国际标准化组织、工业界和学术界广泛关注的研究热点。

With the development of new intelligent optical network , a novel VPN based on intelligent optical transmission network has become the research hotspot for organization , industry and academia .

随着信息业务量的快速增长，智能光网络ASON已成为下一代光传送网的发展方向。

Along with the rapid increase of information service , the intelligent optical network ASON has become the developing direction of next-generation optical transmitting network .

自动交换光网络（ASON）作为智能光网络的典型代表，集中体现了下一代光网络向着智能化、大容量发展的方向。

ASON , asa typical presentation of intelligent optical network , is walking toward the intelligent and larger-capacity tendency of the next generation optical network .

另外，随着基于SDH的智能光网络（ASON）的进一步成熟，基于OTN的ASON或者基于波长的ASON将会是智能光网络的下一发展阶段。

In addition , with the further maturity of SDH-based ASON , OTN-based ASON or wavelength-based ASONN will be the next development stage of ION .

在这种需求背景下，智能光网络被发展用于将现有光网络的运维管理自动化与智能化，最重要的是，这种智能光网络能够有效的传输IP数据业务。

Intelligent Optical Network ( ION ) is now being developed to make the optical network more automatic and intelligent in maintenance and operation , and the most important is to make the optical network efficient to transport IP traffic .

在市场和网络建设的驱动下，智能光网络（ASON）作为一种新型的智能光传送网，得到了迅速的发展。

Driven by the market and network construction , as a new type of intelligent optical network ASON intelligent optical transmission network . a rapid development .

最后在Berkeley实验室开发的NS2网络仿真器平台上对基于GMPLS智能光网络模型进行了设计和仿真。

Finally the model of GMPLS-based Intelligent Optical Network is designed and simulated on the platform of NS-2 developed by the Lab of Berkeley University .

着重研究了智能光网络组成的两项关键技术-MSTP和ASON。重点介绍了两种技术的产生背景，模型结构，网络特性以及发展应用。

Introduces two key technologies of the Intelligent Optical Network-MSTP and ASON , mainly on the background , model structure , network characteristics , and the development of applications . 3 .

目前对于智能光网络（ION）生存性方面的研究主要是针对光网络本身，基于静态的资源配置和管理机制对于快速变化的业务需求而言缺乏灵活性，难以满足未来智能光网络中复杂业务的需求。

Nowadays , the survivability research of Intelligent Optical Network ( ION ) is mainly about optical network itself . Source allocation and management mechanism based on static features lacks flexibility for fast changing services requirements , and is difficult to satisfy the complex services in the future ION .

GMPLS是MPLS向光网络扩展的产物，能支持分组交换、时分交换、波长交换和光纤交换，它实现了IP和WDM光网络的融合，很好地满足智能光网络控制面的需要。

GMPLS is the outcome that the MPLS develops toward the optical network , which can support packet switch , time-division switch , lambda switch and fiber switch , and makes it possible that IP and WDM are combined to one .

分析了现有网络中独立的和层间协调的生存性机制，并且对基于GMPLS的智能光网络的多层生存性进行分析，可以看到智能光网络为多层网络生存性提供了更好的保证。

Multilayer recovery independent and interworking , and multilayer recovery of GMPLS-based intelligent optical network ( ION ) are analyzed . We can conclude that ION can provide rapid and efficient survivability .