Analysis of the structural reliability of communication networks supporting protective switching mechanisms for one protected section and one backup section

K. Batenkov, A. B. Fokin
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Abstract

Objectives. The service level agreement is an important tool used in building reasonable relations between subscribers and operators of telecommunication networks. This includes the quality of services provided. One key component is reliability as assessed by the availability factor. The most suitable model for assessing the reliability of the service provided is a random graph model based on the service contour. This is the set of technical resources involved in the provision of this service. In this formulation, the assessment of the reliability of the service is based on the reliability of elements which constitute the telecommunications network (graph), nodes (vertices) and communication lines (edges). At the same time, the availability factors of nodes and lines are determined by the design features of the distribution environment, as well as the technical means used to organize them. The purpose of this work is to develop an approach to analyzing the reliability of telecommunication networks which support protective switching mechanisms for one protected and one backup sections.Methods. The following methods are used: theory of random graphs, matrices, probabilities and computer modeling.Results. The elements of the route, both basic and reserving, are divided into three groups. The first indicates permanent unchangeable parts of the paths, the second group identifies the reserved sections, and the third group indicates the reserving sections. At the same time, each of the reserved and reserving sections is formed on the basis of specified preferences. They are usually aimed at increasing the resulting reliability, although other rules may be used. In the case of protective switching schemes for one protected section and one backup sections, a variant of forming routes used for further calculations of the reliability indicator is shown.Conclusions. Using the example of a backbone network, the study shows that the use of protective switching mechanisms for the case of one required transmission route demonstrates a significant increase in reliability, with the exception of the use of protective switching in sections. This is primarily due to the topology features of the network under consideration.
支持一个保护段和一个备用段保护开关机制的通信网络结构可靠性分析
目的。服务水平协议是用户与电信网络运营商之间建立合理关系的重要工具。这包括所提供服务的质量。其中一个关键要素是由可用性系数评估的可靠性。评估所提供服务可靠性的最合适模型是基于服务轮廓的随机图模型。这是指提供该服务所涉及的一组技术资源。在这种模式下,服务可靠性的评估基于构成电信网络(图)、节点(顶点)和通信线路(边)的各要素的可靠性。同时,节点和线路的可用性因素由分配环境的设计特征以及用于组织它们的技术手段决定。这项工作的目的是开发一种方法,用于分析支持保护切换机制的电信网络的可靠性,即一个保护部分和一个备份部分。采用了以下方法:随机图理论、矩阵、概率和计算机建模。线路的基本要素和预留要素分为三组。第一组表示路径中永久不变的部分,第二组表示预留路段,第三组表示预留路段。同时,每个保留和预留路段都是根据特定的偏好形成的。虽然也可以使用其他规则,但它们通常以提高可靠性为目的。在一个保护段和一个备用段的保护性切换方案中,显示了用于进一步计算可靠性指标的路由形成变体。以骨干网为例,研究结果表明,在一条所需传输线路的情况下使用保护性切换机制可显著提高可靠性,但分段使用保护性切换机制的情况除外。这主要是由于所考虑的网络拓扑特征造成的。
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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