网络抗地震弹性

2019 11th International Workshop on Resilient Networks Design and Modeling (RNDM) Pub Date : 2019-10-01 DOI:10.1109/RNDM48015.2019.8949088

A. Valentini, Bálazs Vass, Jorik Oostenbrink, Levente Csák, F. Kuipers, B. Pace, David Hay, János Tapolcai

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引用次数: 14

摘要

保证网络服务的高可用性是网络管理的关键部分。在本研究中，我们展示了如何使用经验数据来计算地震下网络服务的可用性。我们采用多学科的方法，在地震学研究和历史数据的基础上建立了一个地震模型。然后，我们展示了如何将这种经验灾难模型整合到现有的网络弹性模型中，以获得地震下网络的脆弱性和可用性。虽然以前的研究已经将他们的模型应用于地面震动危险模型或地震情景，但我们计算了(1)地震活动率和(2)震级与灾区之间的关系，并将两者作为我们建模的输入数据。这种方法更符合现有的网络弹性模型:与地面震动危险模型相比，它提供了关于链路故障之间相关性的更好信息，并且比一组固定的情景提供了更全面的视图。

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Network Resiliency Against Earthquakes

Guaranteeing a high availability of network services is a crucial part of network management. In this study, we show how to compute the availability of network services under earthquakes, by using empirical data. We take a multi-disciplinary approach and create an earthquake model based on seismological research and historical data. We then show how to integrate this empirical disaster model into existing network resiliency models to obtain the vulnerability and availability of a network under earthquakes. While previous studies have applied their models to ground shaking hazard models or earthquake scenarios, we compute (1) earthquake activity rates and (2) a relation between magnitude and disaster area, and use both as input data for our modeling. This approach is more in line with existing network resiliency models: it provides better information on the correlation between link failures than ground shaking hazard models and a more comprehensive view than a fixed set of scenarios.

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来源期刊

2019 11th International Workshop on Resilient Networks Design and Modeling (RNDM)

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