可重构多跳光波网络设计中的延迟与拥塞

Proceedings of the 23rd International Conference on Information Technology Interfaces, 2001. ITI 2001. Pub Date : 2001-06-19 DOI:10.1109/ITI.2001.938033

Valter Boljuncic, D. Skorin-Kapov, J. Skorin-Kapov

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引用次数: 1

摘要

我们根据两个相互冲突的标准来研究光网络的设计问题:吞吐量最大化(或等价地，拥塞最小化)与延迟最小化。我们假设网络具有任意的拓扑结构，流可以通过不同的路由进行分割和发送，并且可以通过中间节点进行传输。禁忌搜索启发式用于比较两个标准中每个标准分配不同权重的解决方案。该方法在一个基准数据集上进行了测试，该数据集是1993年的14维NSFNET T1网络。结果表明:(1)一些连通性矩阵同时满足两个标准的鲁棒性和理想性;(2)无条件地强制最小化总延迟会导致吞吐量显著降低。概述了一些决策策略。

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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On delay versus congestion in designing rearrangeable multihop lightwave networks

We investigate design issues of optical networks in light of two conflicting criteria: throughput maximization (or equivalently, congestion minimization) versus delay minimization. We assume the network has an arbitrary topology, the flow can be split and sent via different routes, and it can be transferred via intermediate nodes. Tabu search heuristic is used to compare solutions with different weights assigned to each of the two criteria. The approach is tested on a benchmark data set, the 14-dimensional NSFNET T1 network with traffic from 1993. The results suggest that: (1) some connectivity matrices are quite robust and desirable regarding both criteria simultaneously; (2) forcing minimization of total delay unconditionally can result in significantly inferior throughput. Some decision strategies are outlined.

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Proceedings of the 23rd International Conference on Information Technology Interfaces, 2001. ITI 2001.

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