A Self-Optimizing Routing Algorithm in a 3-Dimensional Virtual Grid Network

2016 Fourth International Symposium on Computing and Networking (CANDAR) Pub Date : 2016-11-01 DOI:10.1109/CANDAR.2016.0020

Yonghwan Kim, Y. Katayama

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Abstract

In this paper, we present a self-optimizing routing algorithm using local information only, in a three-dimensional (3D) virtual grid network. A virtual grid network is a well-known network model for its ease of designing algorithms and saving energy consumption. We consider a 3D virtual grid network which is obtained by virtually dividing a network into a set of unit cubes called cells. There is one specific node named a router at each cell, and each router is connected with the routers at adjacent cells. This implies that each router can communicate with 6 routers. We suppose one special node (named a source node) and one moving node (named a destination node) in a 3D virtual grid networks. We consider maintenance of an inter-cell communication path to a destination node from a source node. We propose an optimizing protocol in a 3D virtual grid network, which can transform an arbitrary given path (from a source node to a destination node) to the optimal (shortest) path using only local information (6 hops: 3 hops each back and forward along the routing path) of each router.

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三维虚拟网格网络中的自优化路由算法

在本文中，我们提出了一种在三维(3D)虚拟网格网络中仅使用局部信息的自优化路由算法。虚拟网格网络以其易于设计算法和节省能源消耗而成为一种众所周知的网络模型。我们考虑一个三维虚拟网格网络，它是通过将网络虚拟地划分为一组称为细胞的单位立方体而获得的。每个单元中有一个特定的节点，称为路由器，每个路由器与相邻单元中的路由器连接。这意味着每个路由器可以与6个路由器通信。假设三维虚拟网格网络中有一个特殊节点(源节点)和一个移动节点(目标节点)。我们考虑维护从源节点到目标节点的单元间通信路径。在三维虚拟网格网络中提出了一种优化协议，该协议可以仅使用每个路由器的本地信息(6跳:沿路由路径来回各3跳)将任意给定路径(从源节点到目的节点)转换为最优(最短)路径。

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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2016 Fourth International Symposium on Computing and Networking (CANDAR)

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