超越连接性——评估网络稳健性的新指标

Sujogya Banerjee, Shahrzad Shirazipourazad, P. Ghosh, Arunabha Sen
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引用次数: 27

摘要

网络的鲁棒性或容错能力是有线和无线网络的重要设计参数。网络的连通性传统上被认为是评估其容错能力的主要指标。然而,网络G的连通性κ(G)(用于随机故障)或基于区域的连通性κR(G)(用于空间相关或基于区域的故障,其中故障仅限于区域R),一旦故障数量超过κ(G)或κR(G),则无法提供有关网络状态(即网络是否连通)的任何信息。如果故障数超过κ(G)或κ r (G),我们想知道,(i) G分解成的连接分量的数量,(ii)最大连接分量的大小,(iii)最小连接分量的大小。在本文中,我们引入了一组新的度量来计算这些值。我们关注一个特定的度量,称为基于区域的组件分解数(RBCDN),它测量了当一个区域的所有节点失效时网络分解的连接组件的数量。我们研究了寻找网络RBCDN的计算复杂度。此外,我们还研究了以RBCDN为目标值的网络的最小成本设计问题。我们证明了最优设计问题是np完全的,并提出了一个性能界为O(log K + 4log n)的近似算法,其中n表示图中的节点数,K表示RBCDN的目标值。我们通过将算法与最优解的性能进行比较来评估算法的性能。实验结果表明,我们的算法在寻找最优解所需的一小部分时间内产生了接近最优解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Beyond connectivity - new metrics to evaluate robustness of networks
Robustness or fault-tolerance capability of a network is an important design parameter in both wired and wireless networks. Connectivity of a network is traditionally considered to be the primary metric for evaluation of its fault-tolerance capability. However, connectivity κ(G) (for random faults) or region-based connectivity κR(G) (for spatially correlated or region-based faults, where the faults are confined to a region R) of a network G, does not provide any information about the network state, (i.e., whether the network is connected or not) once the number of faults exceeds κ(G) or κR(G). If the number of faults exceeds κ(G) or κR(G), one would like to know, (i) the number of connected components into which G decomposes, (ii) the size of the largest connected component, (iii) the size of the smallest connected component. In this paper, we introduce a set of new metrics that computes these values. We focus on one particular metric called region-based component decomposition number (RBCDN), that measures the number of connected components in which the network decomposes once all the nodes of a region fail. We study the computational complexity of finding RBCDN of a network. In addition, we study the problem of least cost design of a network with a target value of RBCDN. We show that the optimal design problem is NP-complete and present an approximation algorithm with a performance bound of O(log K + 4log n), where n denotes the number of nodes in the graph and K denotes a target value of RBCDN. We evaluate the performance of our algorithm by comparing it with the performance of the optimal solution. Experimental results demonstrate that our algorithm produces near optimal solution in a fraction of time needed to find an optimal solution.
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