Multi-layer traffic engineering in photonic-GMPLS-router networks

Global Telecommunications Conference, 2002. GLOBECOM '02. IEEE Pub Date : 2002-12-01 DOI:10.1109/GLOCOM.2002.1189126

N. Yamanaka, M. Katayama, K. Shiomoto, E. Oki, N. Matsuura

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引用次数: 5

Abstract

The paper describes multi-layer traffic engineering and signaling technologies in photonic-GMPLS-router networks. Multi-layer traffic engineering, which yields the dynamic cooperation of IP and photonic layers for providing IP services cost-effectively, is described. To realize multi-layer traffic engineering, we propose an OSPF extension that advertises both the number of total wavelengths and the number of unused wavelengths and an RSVP-TE extension that minimizes the number of wavelength conversions needed. In addition, the paper presents a heuristic-based multi-layer topology design scheme that uses IP traffic measurements in a generalized multiprotocol label switch (GMPLS). Our design scheme yields the optical label switch path (OLSP) network topology, i.e. OLSP placement, that minimizes network cost, in response to fluctuations in IP traffic demand. In other words, the OLSP network topology is dynamically reconfigured to match IP traffic demand. Networks are reconfigured by the proposed scheme so as to utilize the network resources in the most cost-effective manner.

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光子- gmpls -路由器网络中的多层流量工程

介绍了光子- gmpls -路由器网络中的多层业务工程和信令技术。本文介绍了一种利用IP层和光子层动态协作的多层流量工程技术，以经济有效地提供IP服务。为了实现多层流量工程，我们提出了一个OSPF扩展，它可以同时发布总波长数和未使用波长数，并提出了一个RSVP-TE扩展，它可以最大限度地减少所需的波长转换次数。此外，本文还提出了一种基于启发式的多层拓扑设计方案，该方案在通用多协议标签交换机(GMPLS)中使用IP流量测量。我们的设计方案产生了光标签交换路径(OLSP)网络拓扑结构，即OLSP布局，它可以最大限度地降低网络成本，以响应IP流量需求的波动。换句话说，OLSP网络拓扑被动态地重新配置以匹配IP流量需求。该方案对网络进行了重新配置，以最经济有效地利用网络资源。

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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Global Telecommunications Conference, 2002. GLOBECOM '02. IEEE

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