Routing and wavelength assignment for WDM multicast networks

GLOBECOM'01. IEEE Global Telecommunications Conference (Cat. No.01CH37270) Pub Date : 2001-11-25 DOI:10.1109/GLOCOM.2001.965838

Jingyi He, S. Chan, D. Tsang

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引用次数: 43

Abstract

The multicast routing and wavelength assignment (MC-RWA) problem is generally studied with the objective of maximizing the number of multicast groups admitted, or equivalently, to minimize the call (or session) blocking probability given a certain number of wavelengths. While this approach is sound, a better objective is to maximize the total number of users served (i.e., minimizing the user blocking probability) by allowing part of a multicast group to be admitted. We present for the first time a formulation of the MC-RWA problem with such an objective. The formulation is a nonlinear integer program, which in general is complex to solve. We therefore propose a heuristic algorithm based on linear programming (LP). We further develop a simpler MAX-FIRST algorithm, which achieves almost the same performance as the LP algorithm. These algorithms are for static MC-RWA, where the multicast trees are predetermined and cannot be changed during the wavelength assignment. We extend the algorithms to dynamic MC-RWA, where new multicast trees can be built for unserved groups. We finally present upper and lower bounds on the user blocking probability for the static MC-RWA.

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WDM组播网络的路由和波长分配

多播路由和波长分配(MC-RWA)问题的研究目标通常是在给定一定波长的情况下，使允许的多播组数量最大化，或使呼叫(或会话)阻塞概率最小化。虽然这种方法是合理的，但更好的目标是通过允许多播组的一部分被允许来最大化所服务的用户总数(即最小化用户阻塞概率)。我们首次以这样的目标提出MC-RWA问题的公式。该公式是一个非线性整数程序，通常求解起来比较复杂。因此，我们提出一种基于线性规划(LP)的启发式算法。我们进一步开发了一种更简单的MAX-FIRST算法，其性能与LP算法几乎相同。这些算法适用于静态MC-RWA，其中组播树是预先确定的，在波长分配期间不能改变。我们将算法扩展到动态MC-RWA，其中可以为未服务的组构建新的多播树。最后给出了静态MC-RWA的用户阻塞概率的上界和下界。

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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GLOBECOM'01. IEEE Global Telecommunications Conference (Cat. No.01CH37270)

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