在MPLS主干网中实现多播和QoS的新方法

2006 IFIP International Conference on Wireless and Optical Communications Networks Pub Date : 2006-08-07 DOI:10.1109/WOCN.2006.1666656

J.S. Pedersen, N. Chilamkurti

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引用次数: 0

摘要

多播技术可用于促进视频电话会议和多媒体分发等应用。组播通过只包含作为组播树一部分的网段的流量来提高网络利用率。这可以防止不属于组播树的网段被不需要的流量淹没。此外，组播通过在分支路由器上复制目的地为多个下游接收器的数据包来防止冗余。预留协议(RSVP)保证了实时应用程序的QoS，具有实现应用程序间公平性的能力。RSVP (RSVP- traffic engineering)是RSVP的一个扩展，它允许RSVP PATH和RESV消息建立流量工程标签交换路径LSP (traffic engineered label switched paths)。通过在RSVP-TE中添加组播操作，可以创建点到多点的lsp，从而有效地实现MPLS域内的组播。在本文中，我们提出了MPLS骨干网(MQM)中的多播和QoS，并对网络模拟器(NS-2)进行了扩展，显示了在MPLS域中将多播和RSVP-TE相结合的优点

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A new approach to multicasting and QoS within an MPLS backbone

Multicasting techniques can be applied to facilitate applications such as video conference-calls and multimedia distribution. Multicasting enhances network utilization by containing traffic to network segments that are part of the multicast tree only. This prevents network segments that are not part of the multicast tree to be flooded with unwanted traffic. In addition, multicasting prevents redundancy by copying packets destined for multiple downstream receivers at branching routers. Reservation protocol (RSVP) guarantees QoS for real-time applications and has the ability to achieve fairness across applications. An extension to RSVP called RSVP-traffic engineering (RSVP-TE) is proposed, which enables RSVP PATH and RESV messages to setup traffic engineered label switched paths (LSP). By adding multicast operations to RSVP-TE, point to multi-point LSPs can be created and this effectively enables multicasting within the MPLS domain. In this paper we present multicasting and QoS within a MPLS backbone (MQM) and an extension to the network simulator (NS-2), that shows the advantages of combining multicasting and RSVP-TE within an MPLS domain

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2006 IFIP International Conference on Wireless and Optical Communications Networks

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