Topology Design of Optical Networks Based on Existing Power Grids

Fifth Annual Conference on Communication Networks and Services Research (CNSR '07) Pub Date : 2007-05-14 DOI:10.1109/CNSR.2007.66

Areeyata Sripetch, P. Saengudomlert

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引用次数: 3

Abstract

In a power grid used to distribute electricity, optical fibers can be inserted inside overhead ground wires to form an optical network infrastructure for data communications. We consider the problem of topology design for such a network. To solve the problem, we modify existing methods for topology designs to take into account the topology limitation imposed by an existing power grid. For the design, we adopt a two-level hierarchical architecture consisting of a central backbone connecting multiple access networks. We separate the design into two steps. First, we select the concentrator or backbone nodes and their node members by solving a modified version of the well-known concentrator location problem. Second, we find the connections among concentrators subject to the two-connectivity constraint on the backbone topology. Selection and connection of concentrators are done using integer linear programming (ILP). To reduce the amount of computations involved, as an intermediate step, we provide a method for simplifying of the power grid graph to reduce the problem size for the second step. We solve and present some numerical results for a randomly generated 30-node power grid topology.

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基于现有电网的光网络拓扑设计

在用于分配电力的电网中，可以将光纤插入架空地线中，形成用于数据通信的光网络基础设施。我们考虑了这种网络的拓扑设计问题。为了解决这个问题，我们修改了现有的拓扑设计方法，以考虑现有电网所施加的拓扑限制。在设计中，我们采用了由一个连接多个接入网的中央骨干网组成的两级分层架构。我们将设计分为两步。首先，我们通过解决众所周知的集中器定位问题的改进版本来选择集中器或骨干节点及其节点成员。其次，我们发现受主干网拓扑上的双连接约束的集中器之间的连接。集中器的选择和连接采用整数线性规划(ILP)方法。为了减少所涉及的计算量，作为中间步骤，我们提供了一种简化电网图的方法来减少第二步的问题大小。我们求解了一个随机生成的30节点电网拓扑，并给出了一些数值结果。

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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Fifth Annual Conference on Communication Networks and Services Research (CNSR '07)

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