The network choking can be avoided by using MPLS Traffic Engineering and better service for user provided.
采用MPLS流量工程可以避免引起网络阻塞,为用户提供更好的服务。
This article discusses the implementing process of MPLS Traffic Engineering and analyses the advantages of it by comparing with the overlay model.
讨论了基于MPLS的流量工程的实现过程,并通过与覆盖模型的比较,分析了基于MPLS的流量工程技术的优势。
The problem of traffic engineering has researched for years, and the people have proposed many resolvents, but with MPLS to implement traffic engineering has the advantage of the traditional scheme.
流量工程的问题已经研究多年,人们提出了多种解决方法,但较传统的解决方案相比, MPLS实施流量工程具有更多的优势。
In order to ensure the reliability of MPLS network, MPLS fast Reroute (FRR) based on traffic engineering with the ability to provide fast protection and switching LSP capacity.
为了保证MPLS网络的可靠性,MPLS快速重路由技术借助MPLS流量工程的能力,为主标签交换路径(lsp)提供快速保护倒换能力。
MPLS supports flexible routing method and fits the implement of traffic engineering well.
MPLS支持灵活的路由选择方法,非常适合于流量工程的实现。
This text discussion and analysis the traffic engineering based on MPLS deeply, and research the key technology: constraints routing algorithm.
本文对基于MPLS的流量工程进行了深入探讨与分析,并着重研究其关键技术:约束路由算法。
Load balancing algorithm researched in the paper is to implement traffic engineering in the WDM network which USES MPLS technology.
本文研究的负载均衡算法就是业务量工程在采用了MPLS技术的WDM网络中的实现。
Service providers now have the ability with Multiprotocol Label Switching (MPLS) traffic Engineering to constrain network traffic to certain paths.
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.
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。
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