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Integration of Critical Infrastructure and Societal Consequence Models : Impact on Swedish Power System Mitigation Decisions

Svegrup, Linn LU ; Johansson, Jonas LU and Hassel, Henrik LU (2019) In Risk Analysis 39(9). p.1970-1996
Abstract

Critical infrastructures provide society with services essential to its functioning, and extensive disruptions give rise to large societal consequences. Risk and vulnerability analyses of critical infrastructures generally focus narrowly on the infrastructure of interest and describe the consequences as nonsupplied commodities or the cost of unsupplied commodities; they rarely holistically consider the larger impact with respect to higher-order consequences for the society. From a societal perspective, this narrow focus may lead to severe underestimation of the negative effects of infrastructure disruptions. To explore this theory, an integrated modeling approach, combining models of critical infrastructures and economic input–output... (More)

Critical infrastructures provide society with services essential to its functioning, and extensive disruptions give rise to large societal consequences. Risk and vulnerability analyses of critical infrastructures generally focus narrowly on the infrastructure of interest and describe the consequences as nonsupplied commodities or the cost of unsupplied commodities; they rarely holistically consider the larger impact with respect to higher-order consequences for the society. From a societal perspective, this narrow focus may lead to severe underestimation of the negative effects of infrastructure disruptions. To explore this theory, an integrated modeling approach, combining models of critical infrastructures and economic input–output models, is proposed and applied in a case study. In the case study, a representative model of the Swedish power transmission system and a regionalized economic input–output model are utilized. This enables exploration of how a narrow infrastructure or a more holistic societal consequence perspective affects vulnerability-related mitigation decisions regarding critical infrastructures. Two decision contexts related to prioritization of different vulnerability-reducing measures are considered—identifying critical components and adding system components to increase robustness. It is concluded that higher-order societal consequences due to power supply disruptions can be up to twice as large as first-order consequences, which in turn has a significant effect on the identification of which critical components are to be protected or strengthened and a smaller effect on the ranking of improvement measures in terms of adding system components to increase system redundancy.

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author
; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Critical infrastructures, IIM, inoperability, input–output models, mitigation decisions, power system, societal consequences, Sweden, vulnerability
in
Risk Analysis
volume
39
issue
9
pages
1970 - 1996
publisher
John Wiley & Sons Inc.
external identifiers
  • scopus:85060590528
  • pmid:30682217
ISSN
0272-4332
DOI
10.1111/risa.13272
language
English
LU publication?
yes
id
0c9fc86e-3d22-446e-a4c0-45a38580c081
date added to LUP
2019-03-28 16:58:24
date last changed
2024-04-16 01:30:27
@article{0c9fc86e-3d22-446e-a4c0-45a38580c081,
  abstract     = {{<p>Critical infrastructures provide society with services essential to its functioning, and extensive disruptions give rise to large societal consequences. Risk and vulnerability analyses of critical infrastructures generally focus narrowly on the infrastructure of interest and describe the consequences as nonsupplied commodities or the cost of unsupplied commodities; they rarely holistically consider the larger impact with respect to higher-order consequences for the society. From a societal perspective, this narrow focus may lead to severe underestimation of the negative effects of infrastructure disruptions. To explore this theory, an integrated modeling approach, combining models of critical infrastructures and economic input–output models, is proposed and applied in a case study. In the case study, a representative model of the Swedish power transmission system and a regionalized economic input–output model are utilized. This enables exploration of how a narrow infrastructure or a more holistic societal consequence perspective affects vulnerability-related mitigation decisions regarding critical infrastructures. Two decision contexts related to prioritization of different vulnerability-reducing measures are considered—identifying critical components and adding system components to increase robustness. It is concluded that higher-order societal consequences due to power supply disruptions can be up to twice as large as first-order consequences, which in turn has a significant effect on the identification of which critical components are to be protected or strengthened and a smaller effect on the ranking of improvement measures in terms of adding system components to increase system redundancy.</p>}},
  author       = {{Svegrup, Linn and Johansson, Jonas and Hassel, Henrik}},
  issn         = {{0272-4332}},
  keywords     = {{Critical infrastructures; IIM; inoperability; input–output models; mitigation decisions; power system; societal consequences; Sweden; vulnerability}},
  language     = {{eng}},
  month        = {{01}},
  number       = {{9}},
  pages        = {{1970--1996}},
  publisher    = {{John Wiley & Sons Inc.}},
  series       = {{Risk Analysis}},
  title        = {{Integration of Critical Infrastructure and Societal Consequence Models : Impact on Swedish Power System Mitigation Decisions}},
  url          = {{http://dx.doi.org/10.1111/risa.13272}},
  doi          = {{10.1111/risa.13272}},
  volume       = {{39}},
  year         = {{2019}},
}