Methods for Formation of Telecommunication Network States Sets for Different Measures of Connectivity

Q3 Mathematics SPIIRAS Proceedings Pub Date : 2020-06-01 DOI:10.15622/sp.2020.19.3.7
A. Batenkov, K. Batenkov, A. Fokin
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引用次数: 2

Abstract

Reliability, survivability, and stability analysis tasks are typical not only for telecommunications, but also for systems whose components are subject to one or more types of failures, such as transport, power, mechanical systems, integrated circuits, and even software. The logical approach involves the decomposition of the system into a number of small functional elements, and within telecommunications networks they are usually separate network devices (switches, routers, terminals, etc.), as well as communication lines between them (copper-core, fiber-optic, coaxial cables, wireless media, and other transmission media). Functional relationships also define logical relationships between the failures of individual elements and the failure of the network as a whole. The assumption is also used that device failures are relatively less likely than communication line failures, which implies using the assumption of absolute stability (reliability, survivability) of these devices. Model of a telecommunication network in the form of the generalized model of Erdos–Renyi is presented. In the context of the stability of the telecommunications network, the analyzed property is understood as the connectivity of the network in one form or another. Based on the concept of stochastic connectivity of a network, as the correspondence of a random graph of the connectivity property between a given set of vertices, three connectivity measures are traditionally distinguished: two-pole, multi-pole, and all-pole. The procedures for forming an arbitrary structure of sets of paths and trees for networks are presented, as well as their generalization of multipolar trees. It is noted that multipolar trees are the most common concept of relatively simple chains and spanning trees. Solving such problems will allow us to proceed to calculating the probability of connectivity of graphs for various connectivity measures.
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不同连通性条件下电信网状态集的形成方法
可靠性、生存性和稳定性分析任务不仅适用于电信,而且适用于其组件受到一种或多种故障类型影响的系统,例如运输、电力、机械系统、集成电路,甚至软件。逻辑方法包括将系统分解为许多小的功能元素,在电信网络中,它们通常是独立的网络设备(交换机、路由器、终端等),以及它们之间的通信线路(铜芯、光纤、同轴电缆、无线媒体和其他传输媒体)。功能关系还定义了单个元素失效与整个网络失效之间的逻辑关系。还使用了这样的假设,即设备故障比通信线路故障的可能性相对较小,这意味着使用这些设备的绝对稳定性(可靠性、生存性)的假设。提出了一种基于Erdos-Renyi广义模型的电信网络模型。在电信网络稳定性的背景下,所分析的属性被理解为网络以一种或另一种形式的连通性。基于网络的随机连通性的概念,作为给定顶点集之间的连通性的随机图的对应关系,传统上区分了三种连通性度量:两极、多极和全极。给出了形成网络路径集和树的任意结构的步骤,以及它们对多极树的推广。值得注意的是,多极树是相对简单链和生成树的最常见概念。解决这些问题将使我们能够继续计算各种连通性度量图的连通性概率。
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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来源期刊
SPIIRAS Proceedings
SPIIRAS Proceedings Mathematics-Applied Mathematics
CiteScore
1.90
自引率
0.00%
发文量
0
审稿时长
14 weeks
期刊介绍: The SPIIRAS Proceedings journal publishes scientific, scientific-educational, scientific-popular papers relating to computer science, automation, applied mathematics, interdisciplinary research, as well as information technology, the theoretical foundations of computer science (such as mathematical and related to other scientific disciplines), information security and information protection, decision making and artificial intelligence, mathematical modeling, informatization.
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