Interdependent networks: vulnerability analysis and strategies to limit cascading failure
Interdependent networks: vulnerability analysis and strategies to limit cascading failure
Network theory is increasingly employed to study the structure and behaviour of social, physical and technological systems - including civil infrastructure. Many of these systems are interconnected and the interdependencies between them allow disruptive events to propagate across networks, enabling damage to spread far beyond the immediate footprint of disturbance. In this research we experiment with a model to characterise the configuration of interdependencies in terms of direction, redundancy and extent, and we analyse the performance of interdependent systems with a wide range of possible coupling modes. We demonstrate that networks with directed dependencies are less robust than those with undirected dependencies, and that the degree of redundancy in inter-network dependencies can have a differential effect on robustness determined by their direction. As interdependencies between many real-world systems exhibit these characteristics, it is likely that many such systems operate near critical thresholds. The vulnerability of an interdependent network is shown to be reducible in a cost effective way, either by optimising inter-network connections, or by hardening high degree nodes. The results improve understanding of the influence of interdependencies on system performance and how to mitigate associated risks.
Fu, Gaihua
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Dawson, Richard
e7b551fc-e0fa-42d1-97e0-92d7addc1693
Khoury, Mehdi
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Bullock, Seth
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July 2014
Fu, Gaihua
048dee5a-bab3-428e-aa0d-88c81a654e50
Dawson, Richard
e7b551fc-e0fa-42d1-97e0-92d7addc1693
Khoury, Mehdi
5dc4cd7d-32fd-4626-b00b-74924852e750
Bullock, Seth
2ad576e4-56b8-4f31-84e0-51bd0b7a1cd3
Fu, Gaihua, Dawson, Richard, Khoury, Mehdi and Bullock, Seth
(2014)
Interdependent networks: vulnerability analysis and strategies to limit cascading failure.
The European Physical Journal B.
(doi:10.1140/epjb/e2014-40876-y).
Abstract
Network theory is increasingly employed to study the structure and behaviour of social, physical and technological systems - including civil infrastructure. Many of these systems are interconnected and the interdependencies between them allow disruptive events to propagate across networks, enabling damage to spread far beyond the immediate footprint of disturbance. In this research we experiment with a model to characterise the configuration of interdependencies in terms of direction, redundancy and extent, and we analyse the performance of interdependent systems with a wide range of possible coupling modes. We demonstrate that networks with directed dependencies are less robust than those with undirected dependencies, and that the degree of redundancy in inter-network dependencies can have a differential effect on robustness determined by their direction. As interdependencies between many real-world systems exhibit these characteristics, it is likely that many such systems operate near critical thresholds. The vulnerability of an interdependent network is shown to be reducible in a cost effective way, either by optimising inter-network connections, or by hardening high degree nodes. The results improve understanding of the influence of interdependencies on system performance and how to mitigate associated risks.
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e-pub ahead of print date: 1 July 2014
Published date: July 2014
Organisations:
Agents, Interactions & Complexity
Identifiers
Local EPrints ID: 364569
URI: http://eprints.soton.ac.uk/id/eprint/364569
ISSN: 1434-6028
PURE UUID: 38c58dd7-987f-4d01-a110-9ba038568dad
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Date deposited: 02 May 2014 10:56
Last modified: 14 Mar 2024 16:37
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Author:
Gaihua Fu
Author:
Richard Dawson
Author:
Mehdi Khoury
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