本文中所涉及的多协议交换机可以满足既保留原来旧设备不被淘汰,又使其可以互联进行数据交换。
This multi-protocol switch can not only retain the original old equipment, but also make them interconnected to exchange data.
包括对基于 JMS的基本消息传递、Web服务的使用、消息中介以及最终的多协议消息交换的支持。
This included support for basic messaging over JMS, the use of Web services, message mediation, and finally a multi-protocol message exchange.
因此本文提出了一种基于IP和多协议标签交换协议的专用VPN网络构建方案。
Therefore this paper proposed one kind of VPN network constructs the plan based on IP and the multi-protocol label swap protocol.
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.
标签光突发交换(LOBS)技术将多协议标签交换(MPLS)和光突发交换(OBS)技术结合起来,具有更高的灵活性和效率。
Labeled Optical Burst Switching (LOBS) network, combing the Multi Protocol Label Switch (MPLS) and OBS technologies, has the advantage of high flexibility and high efficiency.
自动交换光网络(ason)控制协议采用通用多协议标签交换(GMPLS)控制协议族,其路由部分主要为开放式最短路径优先(OSPF)协议。
Generalized Multi-Protocol Label Switching (GMPLS) is used as the control protocol for ASON, of which the routing part is mainly governed by the Open Shortest Path First (OSPF) protocol.
通用多协议标签交换(GMPLS)支持对等模型网络,GMPLS技术和路由机制是构建对等模型光因特网的关键技术。
Generalized multi-protocol label switching (GMPLS) supports peer model networks. GMPLS technology and routing mechanism are the key technologies for constructing peer model based optical Internet.
多协议标记交换是打开进入新世纪VPN技术之门的“钥匙”。
MPLS (Multiprotocol Label Switching) is "key" that opens the door of entering the new VPN technique of century.
多协议标记交换技术(MPLS)是对现有IP组网模式的革新,在设计规划网络时它们的主要步骤有许多共同之处,但是对标签空间的度量则是MPLS所特有的。
The design process for MPLS networks has much in common with design of any IP networks, but dimension the MPLS label space is one of the specific to MPLS networks.
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.
路径循环问题是影响多协议标签交换(MPLS)网络质量的主要因素之一,但是目前基于异步传输模式(ATM)的MPLS却缺乏有效的环路检测措施。
Routing loop is one of the most crucial problems that can affect the capability of the MPLS network, but there hasn't an effect method to detect the loop at the ATM-based MPLS network.
介绍了一种引入标记聚集的新机制来实现多协议标记交换(MPLS)中的IP组播,并分析了该机制。
This paper introduces and analyses a new mechanism which adopts label aggregation to realize IP multicast in MPLS.
依据在约束路由和多协议封装两方面的巨大优势,多协议标签交换(MPLS)已经被越来越多的服务商接受为未来互联网络的基本技术。
For its outstanding ability on constraint-based routing and multi-protocol encapsulation, more and more ISPs accept MPLS as fundamental technology for future networks.
从功能上分,通用多协议标签交换协议控制平面分为信令、路由和链路管理。
From the functional point of view, a GPMLS control plane can be partitioned into the following components: link management, routing, and signaling.
通用多协议标记交换(GMPLS)技术的出现,为高速宽带光网络的实现提供了一种新的方式。
The emerging GMPLS technology provides a new means of realizing the high-speed broadband optical network.
传送多协议标签交换(MPLS)(T-MPLS)体系(TMH)是目前传送技术的研究的热点之一。
Transport MPLS(T-MPLS)hierarchy(TMH)is the key point in recent transport network technology study.
本文就IP与ATM结合技术及其各种解决方案与多协议标记交换(MPLS)技术的体系结构等方面进行了讨论。
This paper discusses various solution schemes of the IP Over ATM and the architecture of MultiProtocol Label Switching (MPLS).
通用多协议标记交换(GMPLS)技术的出现,为光因特网的实现提供了一种新的方式。
The emerging of GMPLS technology, provides a new means of realizing the Optical Internet.
多协议标记交换还是一项非常不成熟的技术,它目前正在由IETF进行标准化。
Multiprotocol label Switching (MPLS) is far away to be a nature technology. It is being standardized by Internet Engineering Task Force (IETF).
即多协议标记交换是新一代IP骨干网络的交换标准。
MPLS, which stands for Multi-Protocol Label Switch, is the new generation standard for network layer routing on IP-based backbone network.
多协议标签交换(MPLS)融合了A TM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.
分组传送网(PTN)技术包括传送多协议标签交换(T - MPLS)和运营商骨干传送(PBT)。
Packet Transport Network (PTN) technology includes the Transport Multi-Protocol Label Switching (T-MPLS) and Provider Backbone Transmission (PBT).
提出了一种以波长为标签的新型全光变长分组交换环网的体系结构、网络节点的光分组数据包收发模型,以及防止光分组冲突的多令牌协议。
With the specific features of better communication predictability of the timing token protocol, a formalized analysis model for the predictability has been developed.
基于通用多协议标签交换的光突发交换是目前的网络发展趋势,而突发汇聚是它的非常关键的技术。
The OBS based on the GMPLS is the trend of current network. The Burst Assembly is the key technology of the OBS based on the GMPLS.
提出了基于多协议标记交换(MPLS)的端到端自适应移动IP(MIP)快速切换技术,旨在提高基于MPLS移动IP的灵活性与可扩展性。
An end-to-end adaptive multi-protocol label switching(MPLS)-based fast handover method for mobile IP(MIP) was proposed to improve the flexibility and scalability of MIP over MPLS.
中国铁通互联网是实行统一管理、集中调度的高速宽带IP,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, - and other functions.
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.
目前,多协议标签交换技术作为下一代网络中的一项交换技术,正受到越来越多的人的关注。
Now, MPLS (MultiProtocol Label Switching) as a new switching technique for the Next Generation Network is currently a popular research topic.
为了提高多业务传送平台(MSTP)组网的路由能力、交换能力和服务质量(Q oS)处理能力,需要将多协议标签交换(MPLS)的固有优势引入M STP。
The multiple protocol label switching (MPLS) technology is introduced into the multi-service transport platform (MSTP) in order to enhance the capabilities of routing, exchange and QoS management.
为了提高多业务传送平台(MSTP)组网的路由能力、交换能力和服务质量(Q oS)处理能力,需要将多协议标签交换(MPLS)的固有优势引入M STP。
The multiple protocol label switching (MPLS) technology is introduced into the multi-service transport platform (MSTP) in order to enhance the capabilities of routing, exchange and QoS management.
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