利用贝叶斯网络断层扫描在大规模故障后恢复关键服务

IF 3 3区计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

IEEE/ACM Transactions on Networking Pub Date : 2024-09-12 DOI:10.1109/TNET.2024.3454478

Viviana Arrigoni;Matteo Prata;Novella Bartolini

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引用次数: 0

摘要

由于自然灾害、严重停电、军事和网络攻击，通信网络出现了大规模故障。在这些事件发生后，适当的网络恢复计划是确保紧急关键业务恢复和防止无法忍受的停机和性能下降的关键。我们解决的问题是尽量减少干预的时间和数量，以充分恢复通信网络，以支持大规模故障后的紧急服务。我们提出质子（渐进恢复和基于层析成像的监测），一个有效的算法渐进恢复的紧急服务。与先前的工作不同，假设集中路由和完全的网络可观察性，质子解决了更现实的场景，其中网络依赖于现有的路由协议，并且网络状态的知识是部分和不确定的。质子依靠网络断层扫描来监测和获取有关节点和链路状态的信息。在实际拓扑上的仿真结果表明，在静态和动态故障情况下，我们的算法在累积路由流量、修复成本和恢复时间方面都优于先前的解决方案。

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Recovering Critical Service After Large-Scale Failures With Bayesian Network Tomography

Massive failures in communication networks result from natural disasters, heavy blackouts, and military and cyber attacks. After these events, an adequate network recovery plan is key to ensuring emergency-critical service restoration and preventing intolerable downtime and performance degradation. We tackle the problem of minimizing the time and number of interventions to sufficiently restore the communication network to support emergency services after large-scale failures. We propose Proton (Progressive RecOvery and Tomography-based mONitoring), an efficient algorithm for progressive recovery of emergency services. Unlike previous work, assuming centralized routing and complete network observability, Proton addresses the more realistic scenario in which the network relies on the existing routing protocols, and knowledge of the network state is partial and uncertain. Proton relies on Network Tomography for monitoring and acquiring information about the state of nodes and links. Simulation results on real topologies show that our algorithm outperforms previous solutions in terms of cumulative routed flow, repair costs and recovery time in static and dynamic failure scenarios.

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来源期刊

IEEE/ACM Transactions on Networking 工程技术-电信学

CiteScore

8.20

自引率

5.40%

发文量

246

审稿时长

4-8 weeks

期刊介绍： The IEEE/ACM Transactions on Networking’s high-level objective is to publish high-quality, original research results derived from theoretical or experimental exploration of the area of communication/computer networking, covering all sorts of information transport networks over all sorts of physical layer technologies, both wireline (all kinds of guided media: e.g., copper, optical) and wireless (e.g., radio-frequency, acoustic (e.g., underwater), infra-red), or hybrids of these. The journal welcomes applied contributions reporting on novel experiences and experiments with actual systems.