多协议标签交换

目前多协议标签交换（MPLS）的传输层网络设计中主要有两种可选方案。

There are now primarily two schemes for MPLS transport network design .

多协议标签交换（MPLS）为流量工程的实施提供了便利，其核心技术就是基于约束的路由机制。

MPLS facilitates the implementation of the traffic engineer-ing , whose core technology is constraint-based routing mechanism .

多协议标签交换是IP网络中的重要技术。

Multi-Protocol Label Switching is a very important technology for IP networks .

基于多协议标签交换的IP组播技术

IP multicast techniques based on MPLS domain

IP的出路&多协议标签交换（MPLS）

Future of IP & Multiprotocol Label Switching ( MPLS )

一种移动IPv6与多协议标签交换融合的新方案

Novel Scheme for Integrating Mobile IPv6 and Multi-Protocol Label Switching

多协议标签交换技术（MPLS）体系结构

Multiprotocol label switching ( MPLS ) system architecture

在将IP与ATM进行优势互补的种种尝试中，多协议标签交换（MPLS）应运而生了。

When we attempted to combine the advantages of IP and ATM , Multiprotocol Label Switching ( MPLS ) appeared .

多协议标签交换（MPLS）是一项能解决不断增加的网络要求的技术。

Multi-protocol Label Switching ( MPLS ) is a technology that can address ever-increasing network requirements .

多协议标签交换在光网络中的演进与应用利用荧光标记SSR技术鉴定花生F1代杂交种

Evolvement and Development of MPLS in Optical Network Identification of Peanut Hybrids Using SSR Marker with Fluorescence Labeled M13-tailed Primer

多协议标签交换是由IETF提出的新一代IP骨干网络交换标准。

MPLS ( Multiprotocol Label Switching ) presented by IETF is the new generation of IP backbone network standard .

为解决大多数的流量工程问题和网络传输中的最大流问题，该文提出了基于多协议标签交换（MPLS）解决方案；

A solution to the maximum flow problem of network transmission via MPLS is proposed in this paper .

MPLS（多协议标签交换）具有很多适合于缓解拥塞和平衡负载的特点，它的提出和发展为流量工程的实施开辟了一条崭新的道路。

MPLS has many characteristics for lessening congestion and balancing load and presents a new path to implementing TE .

中国铁通互联网是实行统一管理、集中调度的高速宽带IP网络，可向用户提供互联网接入、多协议标签交换虚拟专网等业务。

CTT Net is a high speed broadband IP network with concentrated condition and unified management , which can provide users with internet access , MPLS-VPN and other functions .

多协议标签交换网络中的OAM技术实现与分析研究

Realization and Analysis of OAM Mechanism of Multiprotocol Label Switching Networks

多协议标签交换（MPLS）融合了ATM快速交换中的高效性和简单性。

Multiprotocol Label Switching ( MPLS ) combines the efficiency and simplicity of IP routing together with the high-speed switching of ATM .

多协议标签交换网络的OAM机制研究与实现

Research on OAM Mechanism for Multi-Protocol Label Switching and Implementation

作为下一代网络的关键技术，多协议标签交换（MPLS）技术以其支持流量工程和QoS保证在IP网络扮演着越来越重要的角色。

MPLS plays a more and more important role in IP network based on supporting TE and QoS as the key technology in next generation network .

目前多协议标签交换（MPLS）网络中大多采用启发式算法进行抢占，造成了带宽资源的浪费。

There exists a waste of bandwidth resources due to the heuristic algorithms for the preemption in multi-protocol label-switching ( MPLS ) networks .

现在服务提供商可以使用多协议标签交换（MPLS）流量工程将网络流量限制在特定路径中。

Service providers now have the ability with Multiprotocol Label Switching ( MPLS ) Traffic Engineering to constrain network traffic to certain paths .

多协议标签交换（MPLS）技术作为借鉴了面向连接网络的优越性和实现流量工程的重要技术，为网络提供了较好的QoS保证。

Multi-protocol label switching ( MPLS ) technology which has the advantages of connected network and can realize traffic engineering can provide better QoS for network .

基于多协议标签交换（MPLS）的IP虚拟专用网（IP/VPN）是目前VPN发展的主流方向。

Presently the IP / Virtual Private Network ( IP / VPN ) based on Multi-Protocol Label Switching ( MPLS ) is the main stream of VPN .

多协议标签交换应时而出，它提供了标签交换的机制，这是一种高效率转发数据报的新技术，本文深入介绍并研究了多标签交换协议技术，包括MPLS方案设计与网络构架。

Multiprotocol Label Switching ( MPLS ) provides the mechanisms to perform label switching , which is an innovative technique for high-performance packet forwarding .

本文提出一种用AAL3/4适配IP分组，支持MPLS（多协议标签交换）的方法。

A new scheme of adaptation for IP packet over ATM and support of MPLS ( Multi-Protocol Label Switching ) using AAL3 / 4 is proposed in the paper .

该文提出了一种改善QoS的队列调谐算法（QueueTuningAlgorithm：QTA），该算法应用于多协议标签交换（MPLS）流量工程。

In this paper , a Queue Tuning Algorithm ( QTA ) supporting QoS for traffic engineering in Multiprotocol Label Switching ( MPLS ) networks is proposed .

从总体结构、核心数据结构、交换路由算法和服务质量控制等方面详细介绍了一种以Linux为平台开发的多协议标签交换引擎MPLSLinux。

This paper presents the details of MPLS-Linux , a Linux Based MPLS engine , which includes the architecture , data structure , switch routing algorithm and QoS control mechanism .

通用多协议标签交换（GMPLS）是由多协议标签交换（MPLS）发展而来，它是MPLS向光层扩展的必然产物。

GMPLS ( Generalized Multi-Protocol Label Switching ) is developed from MPLS and is an inevitable result of MPLS ' extension to optical networks .

多协议标签交换技术（MPLS）是当前的热点技术，而环路问题又是实现MPLS有关的一系列关键技术及难题之一。

Multiple Protocol Label Switching ( MPLS ) is the hot technology today , and to solve the loop problem is one of the key technologies in MPLS .

由于卫星网拓扑时变的特性，使得现有的多协议标签交换（MPLS）技术难以在卫星网中有效地运行。

Due to the change of satellite constellation networks topology , it is very difficult to operate the multiprotocol label switching ( MPLS ) in satellite networks directly .

多协议标签交换（MPLS）是可扩展的下一代网络的关键承载技术，是经济高效、高度可靠的多业务IP网络的基础。

Multi-protocol Label Switching ( MPLS ) - based networks is the key bearer technology of the scalable next generation networks , and the foundation of cost-effective , highly reliable multi-service IP network .