Traffic Analysis of MPLS and Non MPLS Network including MPLS Signaling Protocols and Traffic Distribution in OSPF and MPLS

2008 First International Conference on Emerging Trends in Engineering and Technology Pub Date : 2011-02-16 DOI:10.1109/ICETET.2008.58

Mahesh Kumar Porwal, A. Yadav, S. Charhate

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引用次数: 61

Abstract

Multi-protocol label switching (MPLS) is rapidly emerging technology, which plays a key role in next generation networks by delivering QoS and traffic engineering features. MPLS is helpful in managing traffic when some links or paths are under and/or over utilized. In MPLS a look - up in switching table is certainly less complex and time consuming than a corresponding routing table look - up in an IP router. This paper present a analysis of MPLS signaling protocols for traffic engineering, shows the capability of providing traffic engineering in MPLS compared to the conventional routing protocol, and explains the MPLS LSR operations based on the basic LSR functionality of classification, queue, and scheduling. The comparisons of CR-LDP, RSVP, and RSVP-TE are conducted based on the aspects of LSP reliability and LSP adaptability. In addition, this paper also presents a comparative analysis of MPLS and non-MPLS network and shows that MPLS provides improved network performance for heavy traffic environments.

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MPLS和非MPLS网络流量分析，包括MPLS信令协议、OSPF和MPLS中的流量分布

MPLS (Multi-protocol label switching，多协议标签交换)是一项新兴技术，通过提供QoS和流量工程特性，在下一代网络中发挥着关键作用。当某些链路或路径未被充分利用和/或过度利用时，MPLS有助于管理流量。在MPLS中，交换表的查找当然比在IP路由器中查找相应的路由表要简单和耗时。本文分析了用于流量工程的MPLS信令协议，展示了MPLS相对于传统路由协议提供流量工程的能力，并介绍了基于LSR分类、队列和调度等基本功能的MPLS LSR操作。CR-LDP、RSVP和RSVP- te的比较主要从LSP可靠性和LSP自适应性两个方面进行。此外，本文还对MPLS和非MPLS网络进行了比较分析，表明MPLS在大流量环境下可以提供更好的网络性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2008 First International Conference on Emerging Trends in Engineering and Technology

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