光分组交换

光分组交换由于缺乏高速光逻辑器件、光缓冲存储器等，因此还处于研究阶段。

OPS still is placed in to study the stage because of lacking of the high-speed optical logic device and optical buffer .

光分组交换最大的挑战在于仍然没有成熟的光逻辑和光存储器件，相比而言，光线路交换和光突发交换更具有可实现性。

The biggest challenge for OPS is that the required optical technologies such as optical logic and buffer devices are far from mature . Comparatively , OCS and OBS are easier to be implemented .

基于WDM网络的光分组交换结构

The architecture of photonic packet switching based on WDM Networks

DWDM光分组交换节点中的预留信道路由控制算法

A Channel-Reserved Routing Control Algorithm for Decreasing PLR of High-Priority Data in a DWDM Optical Packet Switching Node

简单数据链路协议（SDL）作为一种新型的IPoverFiber技术，其简单性和低开销更能适应高速传输链路的要求，并提供下一代光分组交换网所需要的操作维护管理功能；

As a new technology of IP over Fiber , SDL ( Simple Data Link ) is particularly suitable for high speed transport links because of its low implementation complexity .

建立了业务具有高、低两种优先权要求时DWDM光分组交换节点预留信道路由模式的解析模型。

A wavelength channel-reserved routing analytical model for high and low priority traffics of DWDM optical packet switching node is set up .

光分组交换中基于OCDM的光标记研究

Research on OCDM Based Optical Label in Optical Packet Switching

与波长路由技术和光分组交换相比较，光突发交换（opticalburstswitching，OBS）更适合于构建未来的光因特网。

Compared to the Wavelength Routing ( WR ) and Optical Packet Switching ( OPS ) networks , Optical Burst Switching ( OBS ) is believed to be a more attractive technical solution for future Internet infrastructure .

光分组交换中FP-SOA光信号处理研究

Study on Optical Signal Processor by Using FP-SOA in Optical Packet Switching

本论文主要研究波长路由的光分组交换及其关键技术，通过对光突发交换网络中传输控制协议（TCP）性能的建模仿真，为研究波长路由光分组交换网络中TCP的传输性能提供参考模型。

Through modeling and simulation of transmission control protocol ( TCP ) performance in the optical burst switching network , a reference model for the study of the transmission performance of TCP in the wavelength-routed optical packet switching networks is provided .

在光分组交换（OPS）节点结构中，由光纤延迟线（FDL）所构成的光缓存是解决光分组冲突的一种非常有效的方法。

In optical packet switch , optical buffer , which is composed of fiber delay line ( FDL ), is an effective way to resolve optical packet contentions .

通过分析不同分组长度分布（PLD）对光分组交换（OPS）性能的影响，以便为OPS在不同长度业务下配置不同的冲突解决方案。

By analyzing the influence of different packet length distribution ( PLD ) on the optical packet suitch ( OPS ) performance different content solutions are configured for the OPS with different packet length traffic .

在网络信息量爆炸式增长、IP业务将成为电信网的主导业务的今天，光分组交换技术利用其交换容量大、带宽利用率高等优势，成为光交换网络的最终理想方案。

For these days , there is an explosive growth of network information , and IP service will become the dominant business in telecommunication network . Optical packet switching takes full advantage of large switching capability and high bandwidth utilization , will become the idea scheme of optical switching network .

本文针对光分组交换中的光功率波动问题，提出了一种利用FP-SOA光功率均衡的方案。

A novel scheme of optical power equalization based on Fabry-Perot semiconductor optical amplifier ( FP-SOA ) is proposed .

光分组交换（OPS）由于其带宽利用效率高、调度灵活等方面的优越性能被认为是光交换技术的发展方向。

Optical Packet Switching ( OPS ) is a promising technology to realize optical switching network , it has the advantages high bandwidth efficiency , flexible scheduling etc. Among various OPS techniques , Optical Label Switching ( OLS ) has recently drawn much attention .

介绍了虚波长路由概念、实现波长转换的核心单元OTU的工作原理和最新进展，讨论了虚波长技术在DWDM系统、光分组交换、下一代网络NGN中的主要应用方案和发挥的作用。

This paper introduces the conception of virtual wavelength route , the principle and the up-to-date progress of the core unit OTU , discusses the application and the important function of this technology in DWDM network , optical group switch and the next generation network .

提出了一种可用于光分组交换的2×1节点接收机，其特征在于，缓存是由前馈和反馈形式的光纤延迟线（FDLs）组合实现的。

A new 2 × 1 node receiver architecture for optical packet switched networks was proposed . The key characteristic of the architecture is that the buffer is achieved by combined use of feed-forward and feedback fiber delay lines ( FDLs ) .

该系统能够使光分组交换网络稳定、高效地运行。

The system can make OPS network operate stably and efficiently .

光分组交换网络中光缓存技术的研究

The Research on Optical Buffer Technology in Optical Packet Switching Network

异步光分组交换的光电混合队列及调度

Optoelectronic Hybrid Queuing and Scheduling of Asynchronous Optical Packet Switch

光分组交换网络中的若干关键技术研究

Studies on Several Key Technologies in Optical Packet Switched Networks

光分组交换网络边缘节点高速数据接口设计和实现

High Speed Data Interface in Optical Packet Switching Edge Node

折射路由法在光分组交换网络中的运用

Application of deflection routing algorithm in optical packet switching networks

光分组交换网边缘节点关键技术的研究

Studies on Key Technologies to Enable Edge Nodes in Optical Packet-Switched Networks

可用于光分组交换网的一种新型2×1节点接收机

New 2 × 1 Node Receiver Architecture for Optical Packet Switched Networks

最近几年，光纤通信技术得到了极大的发展，基于光分组交换的全光通信网已经成为未来光通信网的发展目标。

Great progress has been made in fiber communication technology these years .

有线数字电视光分组交换网络构成

Structure of Optic Packet Switching Network for Cable Digital TV

光分组交换网络中光纤延迟线缓存技术

Fiber Delay Line Buffer Technology in Optical Packet Switching Network

一种新型的输出缓存式光分组交换节点性能分析

Performance Analysis on Novel OPS with Output Optical Buffers

高速光分组交换网关键技术研究及其重要子系统开发

Research on Key Techniques of Optical Packet Switched Networks and Important Subsystem Development