Because MPLS nodes can find integrated labels more rapidly than IP data or regular MPLS labels, network performance may be further improved.
由于mpls节点可以比ip数据或正规的mpls标签更快地找到结合的标签,故网络性能可以进一步提高。
An LSP extension mechanism is proposed to decrease the signaling overhead and handoff delay and to eliminate the packet loss in MPLS based mobile IP networks.
为了减小基于MPLS的移动IP网络的信令开销、切换时延和切换丢包,人们提出了一种称为LSP扩展的移动性管理机制。
MPLS is a key technique which can solve problems existed in IP core network such as the performance of forwarding, differ service, traffic engineer and so on.
MPLS是一项有效解决核心网络转发性能、区分服务、流量工程等问题的关键技术;
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.
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 of the data network was analyzed and illuminated in the aspects of network topology, IP layout, MPLS VPN, network security, and network management.
对华北电力调度数据网网络设计的网络拓扑、IP规划、MPLSVPN、网络安全、网络管理等方面进行了分析阐述。
MPLS can unify different data link layer techniques and different third layer protocols to a same platform. Mobile IP can support access to Internet when motion and mobile computing.
MPLS技术可以将不同的链路层技术和不同的第三层协议统一在同一平台上,移动IP技术是一种支持移动访问因特网的技术,可支持移动计算。
Comparing with the classical IP and taking the advantages of MPLS, this article brings forward a new method to resolve the delay in the real-time video transmission.
参照MPLS的技术优势,对比传统IP技术的不足,提出了在MPLS中解决实时视频传输的时延等问题的技术方案。
Then, with regard to how to solve the inherent flaw in traditional IP network, the most representative among multitudinous new plans is MPLS VPN technology.
那么,如何解决传统IP网络的固有缺陷,在众多新方案中,最具代表性的就是MPLSVPN技术。
This paper introduces and analyses a new mechanism which adopts label aggregation to realize IP multicast in MPLS.
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。
When we attempted to combine the advantages of IP and ATM, Multiprotocol Label Switching (MPLS) appeared.
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。
MPLS is an IP core technology of the next generation. Currently it is actively driven to worldwide deployment.
MPLS技术是新一代的IP骨干网络技术,目前正在大规模的推广使用中。
The design mainly includes three parts in the article: the network organization structure design, the layout of IP address and equipment assigns name to the norm, the MPLS VPN design.
本文中设计主要包括三个部分:网络组织结构设计、IP地址规划和设备命名规范、MPLSVPN设计。
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(MPLS)融合了A TM快速交换中的高效性和简单性。
This paper discusses various solution schemes of the IP Over ATM and the architecture of MultiProtocol Label Switching (MPLS).
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。
MPLS, which stands for Multi-Protocol Label Switch, is the new generation standard for network layer routing on IP-based backbone network.
即多协议标记交换是新一代IP骨干网络的交换标准。
This BRM mechanism can support IP Multicast in MPLS domain effectively.
边界路由器多播机制能有效地支持MPLS网络环境下的IP多播问题。
The design of the data network is analyzed and illuminated in the aspects of network topology, IP layout, MPLS VPN, network security, and network management.
对华北电力调度数据网网络设计的网络拓扑、IP规划、MPLSVPN、网络安全、网络管理等方面进行了分析阐述。
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.
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.
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。
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