Difference between revisions of "Critical Infrastructure Resilience"
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=== National Definitions === | === National Definitions === | ||
==== [[Australia]] ==== | ==== [[Australia]] ==== | ||
− | {{definition| | + | {{definition|In the context of critical infrastructure, resilience refers to: (a) coordinated planning across sectors and networks, (b) responsive, flexible and timely recovery measures, and (c) the development of an organisational culture that has the ability to provide a minimum level of service during interruptions, emergencies and disasters, and return to full operations quickly. |
+ | In this way, building capacity in organisations to be agile, adaptive and to improve by learning from experience | ||
+ | is part of the concept of CIR (see [[Organisational Resilience]]). <ref>[http://www.tisn.gov.au/Documents/Australian+Government+s+Critical+Infrastructure+Resilience+Strategy.pdf Critical Infrastructure Resilience Strategy, 2010]</ref>}}<br /> | ||
==== [[United Kingdom]] ==== | ==== [[United Kingdom]] ==== | ||
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+ | === Other Definitions === | ||
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+ | {{definition|A resilient infrastructure is a component, system or facility that is able to withstand damage or disruption, but if affected, can be readily and cost-effectively restored. <ref>Critical Thinking: Moving from Infrastructure Protection to Infrastructure Resilience, CIIP Resilience Series Monograph. CIP Program discussion paper series. Virginia: George Mason University.</ref>}} | ||
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+ | {{definition|Resilience is the joint ability of infrastructure systems to resist (prevent and withstand) any possible hazards, absorb the initial damage, and recover to normal operation. <ref>Ouyang M., Dueñas-Osorio, L. & Min, X. (2012). A three-stage resilience analysis framework for urban infrastructure systems, Structural Safety, Volumes 36–37, May–July 2012, Pages 23-31, ISSN 0167-4730, http://dx.doi.org/10.1016/j.strusafe.2011.12.004. </ref>}} | ||
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+ | {{definition|Resilience is capacity of a system to prevent a crisis occurrence, and when a crisis occurs, the capacity to absorb the impact and recover rapidly to the normal state. <ref> Labaka, L., Hernantes, J., & Sarriegi, J. M. (2015). Resilience framework for critical infrastructures, International Journal of Disaster Resilience in the Built Environment, vol. 6(4).</ref>}} | ||
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+ | {{definition|A resilience assessment framework should encompass the following attributes: (a) Systems structure (the physical static parameters of the infrastructure, i.e. design and topology parameters of the system), (b) Systems dynamic (the dynamic behavior of the infrastructure systems, e.g. emergency preparedness, response management, and recovery activities) and (c) Human and Organizational capacities (human and organizational factors whose contributions are essential to the overall infrastructure resilience).<ref>Alsubaie, A., Alutaibi, K., & Marti, J. (2015). Resilience Assessment of Interdependent Critical Infrastructure, In Rome, E., Theocharidou, M., & Wolthusen, S. (eds.) Proceedings of CRITIS 2015 , Critical Information Infrastructure Security, LNCS, Springer Berlin Heidelberg (to appear).</ref>}} | ||
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==See also== | ==See also== | ||
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* [[Critical Infrastructure Protection]] | * [[Critical Infrastructure Protection]] | ||
* [[Resilience]] | * [[Resilience]] | ||
+ | * [[Organisational Resilience]] | ||
==Notes== | ==Notes== |
Revision as of 18:20, 1 December 2015
Contents
Definitions
European Definitions
National Definitions
Australia
In the context of critical infrastructure, resilience refers to: (a) coordinated planning across sectors and networks, (b) responsive, flexible and timely recovery measures, and (c) the development of an organisational culture that has the ability to provide a minimum level of service during interruptions, emergencies and disasters, and return to full operations quickly.
In this way, building capacity in organisations to be agile, adaptive and to improve by learning from experience
is part of the concept of CIR (see Organisational Resilience). [1]
United Kingdom
Critical Infrastructure Resilience (CIR) encompasses activity to prevent, protect and prepare for natural hazard. [2]
United States
Infrastructure resilience is the ability to reduce the magnitude and/or duration of disruptive events. The effectiveness of a resilient infrastructure or enterprise depends upon its ability to anticipate, absorb, adapt to, and/or rapidly recover from a potentially disruptive event. [3]
Other Definitions
A resilient infrastructure is a component, system or facility that is able to withstand damage or disruption, but if affected, can be readily and cost-effectively restored. [4]
Resilience is the joint ability of infrastructure systems to resist (prevent and withstand) any possible hazards, absorb the initial damage, and recover to normal operation. [5]
Resilience is capacity of a system to prevent a crisis occurrence, and when a crisis occurs, the capacity to absorb the impact and recover rapidly to the normal state. [6]
A resilience assessment framework should encompass the following attributes: (a) Systems structure (the physical static parameters of the infrastructure, i.e. design and topology parameters of the system), (b) Systems dynamic (the dynamic behavior of the infrastructure systems, e.g. emergency preparedness, response management, and recovery activities) and (c) Human and Organizational capacities (human and organizational factors whose contributions are essential to the overall infrastructure resilience).[7]
See also
Notes
- ↑ Critical Infrastructure Resilience Strategy, 2010
- ↑ Strategic Framework and Policy Statement on Improving the Resilience of Critical Infrastructure to Disruption from Natural Hazards (2010)
- ↑ CRITICAL INFRASTRUCTURE RESILIENCE FINAL REPORT AND RECOMMENDATIONS, National Infrastructure Advisory Council, 2009
- ↑ Critical Thinking: Moving from Infrastructure Protection to Infrastructure Resilience, CIIP Resilience Series Monograph. CIP Program discussion paper series. Virginia: George Mason University.
- ↑ Ouyang M., Dueñas-Osorio, L. & Min, X. (2012). A three-stage resilience analysis framework for urban infrastructure systems, Structural Safety, Volumes 36–37, May–July 2012, Pages 23-31, ISSN 0167-4730, http://dx.doi.org/10.1016/j.strusafe.2011.12.004.
- ↑ Labaka, L., Hernantes, J., & Sarriegi, J. M. (2015). Resilience framework for critical infrastructures, International Journal of Disaster Resilience in the Built Environment, vol. 6(4).
- ↑ Alsubaie, A., Alutaibi, K., & Marti, J. (2015). Resilience Assessment of Interdependent Critical Infrastructure, In Rome, E., Theocharidou, M., & Wolthusen, S. (eds.) Proceedings of CRITIS 2015 , Critical Information Infrastructure Security, LNCS, Springer Berlin Heidelberg (to appear).