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Critical infrastructure

October 13, 2023

Critical infrastructure, or critical national infrastructure (CNI) in the UK, describes infrastructure considered essential by governments for the functioning of a society and economy and deserving of special protection for national security.

Items Edit

Most commonly associated with the term are assets and facilities for:

Protection programmes Edit

Canada Edit

The Canadian Federal Government identifies the following 10 Critical Infrastructure Sectors as a way to classify essential assets.[1] [2]

  1. Energy & Utilities: Electricity providers; off-shore/on-shore oil & gas; coal supplies, natural gas providers; home fuel oil; gas station supplies; alternative energy suppliers (wind, solar, other)
  2. Information and Communication Technology: Broadcast Media; telecommunication providers (landlines, cell phones, internet, wifi); Postal services;
  3. Finance: Banking services, government finance/aid departments; taxation
  4. Health: Public health & wellness programs, hospital/clinic facilities; blood & blood products
  5. Food: Food supply chains; food inspectors; import/export programs; grocery stores; Agri & Acqua culture; farmers markets
  6. Water: Water supply & protection; wastewater management; fisheries & ocean protection programs
  7. Transportation: Roads, bridges, railways, aviation/airports; shipping & ports; transit
  8. Safety: Emergency responders; public safety programs
  9. Government: Military; Continuity of governance
  10. Manufacturing: Industry, economic development

European Union Edit

Main article: European Programme for Critical Infrastructure Protection

European Programme for Critical Infrastructure Protection (EPCIP) refers to the doctrine or specific programs created as a result of the European Commission's directive EU COM(2006) 786 which designates European critical infrastructure that, in case of fault, incident, or attack, could impact both the country where it is hosted and at least one other European Member State. Member states are obliged to adopt the 2006 directive into their national statutes.

It has proposed a list of European critical infrastructures based upon inputs by its member states. Each designated European Critical Infrastructures (ECI) will have to have an Operator Security Plan (OSP) covering the identification of important assets, a risk analysis based on major threat scenarios and the vulnerability of each asset, and the identification, selection and prioritisation of counter-measures and procedures.

Germany Edit

The German critical-infrastructure protection programme KRITIS is coordinated by the Federal Ministry of the Interior. Some of its special agencies like the German Federal Office for Information Security or the Federal Office of Civil Protection and Disaster Assistance BBK deliver the respective content, e.g., about IT systems.[3]

Singapore Edit

In Singapore, critical infrastructures are mandated under the Protected Areas and Protected Places Act.[4] In 2017, the Infrastructure Protection Act was passed in Parliament, which provides for the protection of certain areas, places and other premises in Singapore against security risks.[5] It came into force in 2018.[6][7]

United Kingdom Edit

See also: Category:Emergency management in the United Kingdom

In the UK, the National Protective Security Authority (NPSA) provides information, personnel and physical security advice to the businesses and organizations which make up the UK's national infrastructure, helping to reduce its vulnerability to terrorism and other threats.

It can call on resources from other government departments and agencies, including MI5, the National Cyber Security Centre (NCSC) and other government departments responsible for national infrastructure sectors.

United States Edit

Main article: U.S. critical infrastructure protection

The U.S. has had a wide-reaching critical infrastructure protection program in place since 1996. Its Patriot Act of 2001 defined critical infrastructure as those "systems and assets, whether physical or virtual, so vital to the United States that the incapacity or destruction of such systems and assets would have a debilitating impact on security, national economic security, national public health or safety, or any combination of those matters."

In 2014 the NIST Cybersecurity Framework was published, and quickly became a popular set of guidelines, despite the significant costs of full compliance.[8]

These have identified a number of critical infrastructures and responsible agencies:

  1. Agriculture and food – Departments of Agriculture and Health and Human Services
  2. WaterEnvironmental Protection Agency
  3. Public Health – Department of Health and Human Services
  4. Emergency Services – Department of Homeland Security
  5. Government – Department of Homeland Security
  6. Defense Industrial BaseDepartment of Defense
  7. Information and TelecommunicationsDepartment of Commerce
  8. EnergyDepartment of Energy
  9. Transportation and ShippingDepartment of Transportation
  10. Banking and FinanceDepartment of the Treasury
  11. Chemical Industry and Hazardous Materials – Department of Homeland Security
  12. Post – Department of Homeland Security
  13. National monuments and icons - Department of the Interior
  14. Critical manufacturing - Department of Homeland Security (14th sector announced March 3, 2008; recorded April 30, 2008)

National Infrastructure Protection Plan Edit

The National Infrastructure Protection Plan (NIPP) defines critical infrastructure sector in the US. Presidential Policy Directive 21 (PPD-21),[9] issued in February 2013 entitled Critical Infrastructure Security and Resilience mandated an update to the NIPP. This revision of the plan established the following 16 critical infrastructure sectors:

  1. Chemical
  2. Commercial facilities
  3. Communications
  4. Critical manufacturing
  5. Dams
  6. Defense industrial base
  7. Emergency services
  8. Energy
  9. Financial services
  10. Food and agriculture
  11. Government facilities
  12. Healthcare and public health
  13. Information technology
  14. Nuclear reactors, materials, and waste
  15. Transportation systems
  16. Water and wastewater systems

National Monuments and Icons along with the postal and shipping sector were removed in 2013 update to the NIPP. The 2013 version of the NIPP has faced criticism for lacking viable risk measures.[10][11] The plan assigns the following agencies sector-specific coordination responsibilities:

Department of Homeland Security
  • Chemical
  • Commercial facilities
  • Communications
  • Critical manufacturing
  • Dams
  • Emergency services
  • Government facilities (jointly with General Services Administration)
  • Information technology
  • Nuclear reactors, materials, and waste
  • Transportation systems (jointly with Department of Transportation)
Department of Defense
  • Defense industrial base
Department of Energy
  • Energy
Department of the Treasury
  • Financial services
Department of Agriculture
  • Food and agriculture
General Services Administration
  • Government facilities (jointly with Department of Homeland Security)
Department of Health and Human Services
  • Healthcare and Public Health
Department of Transportation
  • Transportation systems (jointly with Department of Homeland Security)
Environmental Protection Agency
  • Water and wastewater systems

State-level legislation Edit

Several U.S. states have passed "critical infrastructure" bills, promoted by the American Legislative Exchange Council (ALEC), to criminalize protests against the fossil fuel industry.[12] In May 2017, Oklahoma passed legislation which created felony penalties for trespassing on land considered critical infrastructure, including oil and gas pipelines, or conspiring to do so; ALEC introduced a version of the bill as a model act and encouraged other states to adopt it.[13] In June 2020, West Virginia passed the Critical Infrastructure Protection Act, which created felony penalties for protests against oil and gas facilities.[14]

Stress testing Edit

Critical infrastructure (CI) such as highways, railways, electric power networks, dams, port facilities, major gas pipelines or oil refineries are exposed to multiple natural and human-induced hazards and stressors, including earthquakes, landslides, floods, tsunami, wildfires, climate change effects or explosions. These stressors and abrupt events can cause failures and losses, and hence, can interrupt essential services for the society and the economy.[15] Therefore, CI owners and operators need to identify and quantify the risks posed by the CIs due to different stressors, in order to define mitigation strategies[16] and improve the resilience of the CIs.[17][18] Stress tests are advanced and standardised tools for hazard and risk assessment of CIs, that include both low-probability high-consequence (LP-HC) events and so-called extreme or rare events, as well as the systematic application of these new tools to classes of CI.

Stress testing is the process of assessing the ability of a CI to maintain a certain level of functionality under unfavourable conditions, while stress tests consider LP-HC events, which are not always accounted for in the design and risk assessment procedures, commonly adopted by public authorities or industrial stakeholders. A multilevel stress test methodology for CI has been developed in the framework of the European research project STREST,[19] consisting of four phases:[20]

Phase 1: Preassessment, during which the data available on the CI (risk context) and on the phenomena of interest (hazard context) are collected. The goal and objectives, the time frame, the stress test level and the total costs of the stress test are defined.

Phase 2: Assessment, during which the stress test at the component and the system scope is performed, including fragility[21] and risk[22] analysis of the CIs for the stressors defined in Phase 1. The stress test can result in three outcomes: Pass, Partly Pass and Fail, based on the comparison of the quantified risks to acceptable risk exposure levels and a penalty system.

Phase 3: Decision, during which the results of the stress test are analyzed according to the goal and objectives defined in Phase 1. Critical events (events that most likely cause the exceedance of a given level of loss) and risk mitigation strategies are identified.

Phase 4: Report, during which the stress test outcome and risk mitigation guidelines based on the findings established in Phase 3 are formulated and presented to the stakeholders.

This stress-testing methodology has been demonstrated to six CIs in Europe at component and system level:[23] an oil refinery and petrochemical plant in Milazzo, Italy; a conceptual alpine earth-fill dam in Switzerland; the Baku–Tbilisi–Ceyhan pipeline in Turkey; part of the Gasunie national gas storage and distribution network in the Netherlands; the port infrastructure of Thessaloniki, Greece; and an industrial district in the region of Tuscany, Italy. The outcome of the stress testing included the definition of critical components and events and risk mitigation strategies, which are formulated and reported to stakeholders.

See also Edit

References Edit

  1. ^ "National Cross Sector Forum 2021-2023 Action Plan for Critical Infrastructure". May 26, 2021.
  2. ^ "National Strategy for Critical Infrastructure". December 21, 2018.
  3. ^ (PDF). Archived from the original (PDF) on September 15, 2017. Retrieved September 17, 2010.
  4. ^ "Protected Areas and Protected Places Act - Singapore Statutes Online". sso.agc.gov.sg. Government of Singapore. December 31, 2013. Retrieved October 15, 2022.
  5. ^ "Infrastructure Protection Act 2017 - Singapore Statutes Online". sso.agc.gov.sg. October 2, 2017. Retrieved October 15, 2022.
  6. ^ "Infrastructure Protection Act". police.gov.sg. Singapore Police Force. March 14, 2019. Retrieved October 15, 2022.
  7. ^ "Protecting Infrastructure". mha.gov.sg. Ministry of Home Affairs. Retrieved October 15, 2022.
  8. ^ "NIST Cybersecurity Framework Adoption Hampered By Costs, Survey Finds". Dark Reading. March 30, 2016. Retrieved August 2, 2016.
  9. ^ "Presidential Policy Directive -- Critical Infrastructure Security and Resilience". whitehouse.gov. February 12, 2013. Retrieved March 12, 2019.
  10. ^ White, R. (February 13, 2014). "Towards a Unified Homeland Security Strategy: An Asset Vulnerability Model". Homeland Security Affairs. Retrieved February 26, 2015.
  11. ^ Kahan, J (February 4, 2015). "Resilience Redux: Buzzword or Basis for Homeland Security". Homeland Security Affairs. Retrieved February 28, 2015.
  12. ^ Brown, Alleen; Lacy, Akela (January 12, 2021). "In Wake of Capitol Riot, GOP Legislatures 'Rebrand' Old Anti-BLM Protest Laws". The Intercept. Retrieved February 10, 2021.
  13. ^ Brown, Alleen (May 23, 2019). "Pipeline Opponents Strike Back Against Anti-Protest Laws". The Intercept. Retrieved February 13, 2021.
  14. ^ Brown, Alleen (June 7, 2020). "A Powerful Petrochemical Lobbying Group Advanced Anti-Protest Legislation in the Midst of the Pandemic". The Intercept. Retrieved February 13, 2021.
  15. ^ Pescaroli, Gianluca; Alexander, David (May 1, 2016). "Critical infrastructure, panarchies and the vulnerability paths of cascading disasters". Natural Hazards. 82 (1): 175–192. doi:10.1007/s11069-016-2186-3. ISSN 1573-0840.
  16. ^ Mignan, A.; Karvounis, D.; Broccardo, M.; Wiemer, S.; Giardini, D. (March 2019). "Including seismic risk mitigation measures into the Levelized Cost Of Electricity in enhanced geothermal systems for optimal siting". Applied Energy. 238: 831–850. doi:10.1016/j.apenergy.2019.01.109.
  17. ^ Linkov, Igor; Bridges, Todd; Creutzig, Felix; Decker, Jennifer; Fox-Lent, Cate; Kröger, Wolfgang; Lambert, James H.; Levermann, Anders; Montreuil, Benoit; Nathwani, Jatin; Nyer, Raymond (June 2014). "Changing the resilience paradigm". Nature Climate Change. 4 (6): 407–409. Bibcode:2014NatCC...4..407L. doi:10.1038/nclimate2227. ISSN 1758-6798. S2CID 85351884.
  18. ^ Argyroudis, Sotirios A.; Mitoulis, Stergios A.; Hofer, Lorenzo; Zanini, Mariano Angelo; Tubaldi, Enrico; Frangopol, Dan M. (April 2020). "Resilience assessment framework for critical infrastructure in a multi-hazard environment: Case study on transport assets" (PDF). Science of the Total Environment. 714: 136854. Bibcode:2020ScTEn.714m6854A. doi:10.1016/j.scitotenv.2020.136854. PMID 32018987. S2CID 211036128.
  19. ^ "STREST-Harmonized approach to stress tests for critical infrastructures against natural hazards. Funded from the European Union's Seventh Framework Programme FP7/2007-2013, under grant agreement no. 603389. Project Coordinator: Domenico Giardini; Project Manager: Arnaud Mignan, ETH Zurich".
  20. ^ Esposito Simona; Stojadinović Božidar; Babič Anže; Dolšek Matjaž; Iqbal Sarfraz; Selva Jacopo; Broccardo Marco; Mignan Arnaud; Giardini Domenico (March 1, 2020). "Risk-Based Multilevel Methodology to Stress Test Critical Infrastructure Systems". Journal of Infrastructure Systems. 26 (1): 04019035. doi:10.1061/(ASCE)IS.1943-555X.0000520. S2CID 214354801.
  21. ^ Pitilakis, K.; Crowley, H.; Kaynia, A.M., eds. (2014). SYNER-G: Typology Definition and Fragility Functions for Physical Elements at Seismic Risk. Geotechnical, Geological and Earthquake Engineering. Vol. 27. Dordrecht: Springer Netherlands. doi:10.1007/978-94-007-7872-6. ISBN 978-94-007-7871-9. S2CID 133078584.
  22. ^ Pitilakis, K.; Franchin, P.; Khazai, B.; Wenzel, H., eds. (2014). SYNER-G: Systemic Seismic Vulnerability and Risk Assessment of Complex Urban, Utility, Lifeline Systems and Critical Facilities. Geotechnical, Geological and Earthquake Engineering. Vol. 31. Dordrecht: Springer Netherlands. doi:10.1007/978-94-017-8835-9. ISBN 978-94-017-8834-2. S2CID 107566163.
  23. ^ Argyroudis, Sotirios A.; Fotopoulou, Stavroula; Karafagka, Stella; Pitilakis, Kyriazis; Selva, Jacopo; Salzano, Ernesto; Basco, Anna; Crowley, Helen; Rodrigues, Daniela; Matos, José P.; Schleiss, Anton J. (2020). "A risk-based multi-level stress test methodology: application to six critical non-nuclear infrastructures in Europe" (PDF). Natural Hazards. 100 (2): 595–633. doi:10.1007/s11069-019-03828-5. ISSN 1573-0840. S2CID 209432723.

External links Edit

    October 13, 2023
    critical, infrastructure, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, j. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Critical infrastructure news newspapers books scholar JSTOR June 2023 Learn how and when to remove this template message Critical infrastructure or critical national infrastructure CNI in the UK describes infrastructure considered essential by governments for the functioning of a society and economy and deserving of special protection for national security Contents 1 Items 2 Protection programmes 2 1 Canada 2 2 European Union 2 3 Germany 2 4 Singapore 2 5 United Kingdom 2 6 United States 2 6 1 National Infrastructure Protection Plan 2 6 2 State level legislation 3 Stress testing 4 See also 5 References 6 External linksItems EditMost commonly associated with the term are assets and facilities for Shelter Heating e g natural gas fuel oil district heating Agriculture food production and distribution Education skills development and technology transfer basic subsistence and unemployment rate statistics Water supply drinking water waste water sewage stemming of surface water e g dikes and sluices Public health hospitals ambulances Transportation systems fuel supply railway network airports harbours inland shipping Security services police military Electricity generation transmission and distribution e g natural gas fuel oil coal nuclear power Renewable energy which are naturally replenished on a human timescale such as sunlight wind rain tides waves and geothermal heat Telecommunication coordination for successful operations Economic sector Goods and services and financial services banking clearing Protection programmes EditCanada Edit The Canadian Federal Government identifies the following 10 Critical Infrastructure Sectors as a way to classify essential assets 1 2 Energy amp Utilities Electricity providers off shore on shore oil amp gas coal supplies natural gas providers home fuel oil gas station supplies alternative energy suppliers wind solar other Information and Communication Technology Broadcast Media telecommunication providers landlines cell phones internet wifi Postal services Finance Banking services government finance aid departments taxation Health Public health amp wellness programs hospital clinic facilities blood amp blood products Food Food supply chains food inspectors import export programs grocery stores Agri amp Acqua culture farmers markets Water Water supply amp protection wastewater management fisheries amp ocean protection programs Transportation Roads bridges railways aviation airports shipping amp ports transit Safety Emergency responders public safety programs Government Military Continuity of governance Manufacturing Industry economic developmentEuropean Union Edit Main article European Programme for Critical Infrastructure Protection European Programme for Critical Infrastructure Protection EPCIP refers to the doctrine or specific programs created as a result of the European Commission s directive EU COM 2006 786 which designates European critical infrastructure that in case of fault incident or attack could impact both the country where it is hosted and at least one other European Member State Member states are obliged to adopt the 2006 directive into their national statutes It has proposed a list of European critical infrastructures based upon inputs by its member states Each designated European Critical Infrastructures ECI will have to have an Operator Security Plan OSP covering the identification of important assets a risk analysis based on major threat scenarios and the vulnerability of each asset and the identification selection and prioritisation of counter measures and procedures Germany Edit The German critical infrastructure protection programme KRITIS is coordinated by the Federal Ministry of the Interior Some of its special agencies like the German Federal Office for Information Security or the Federal Office of Civil Protection and Disaster Assistance BBK deliver the respective content e g about IT systems 3 Singapore Edit In Singapore critical infrastructures are mandated under the Protected Areas and Protected Places Act 4 In 2017 the Infrastructure Protection Act was passed in Parliament which provides for the protection of certain areas places and other premises in Singapore against security risks 5 It came into force in 2018 6 7 United Kingdom Edit See also Category Emergency management in the United Kingdom In the UK the National Protective Security Authority NPSA provides information personnel and physical security advice to the businesses and organizations which make up the UK s national infrastructure helping to reduce its vulnerability to terrorism and other threats It can call on resources from other government departments and agencies including MI5 the National Cyber Security Centre NCSC and other government departments responsible for national infrastructure sectors United States Edit Main article U S critical infrastructure protection The U S has had a wide reaching critical infrastructure protection program in place since 1996 Its Patriot Act of 2001 defined critical infrastructure as those systems and assets whether physical or virtual so vital to the United States that the incapacity or destruction of such systems and assets would have a debilitating impact on security national economic security national public health or safety or any combination of those matters In 2014 the NIST Cybersecurity Framework was published and quickly became a popular set of guidelines despite the significant costs of full compliance 8 These have identified a number of critical infrastructures and responsible agencies Agriculture and food Departments of Agriculture and Health and Human Services Water Environmental Protection Agency Public Health Department of Health and Human Services Emergency Services Department of Homeland Security Government Department of Homeland Security Defense Industrial Base Department of Defense Information and Telecommunications Department of Commerce Energy Department of Energy Transportation and Shipping Department of Transportation Banking and Finance Department of the Treasury Chemical Industry and Hazardous Materials Department of Homeland Security Post Department of Homeland Security National monuments and icons Department of the Interior Critical manufacturing Department of Homeland Security 14th sector announced March 3 2008 recorded April 30 2008 National Infrastructure Protection Plan Edit The National Infrastructure Protection Plan NIPP defines critical infrastructure sector in the US Presidential Policy Directive 21 PPD 21 9 issued in February 2013 entitled Critical Infrastructure Security and Resilience mandated an update to the NIPP This revision of the plan established the following 16 critical infrastructure sectors Chemical Commercial facilities Communications Critical manufacturing Dams Defense industrial base Emergency services Energy Financial services Food and agriculture Government facilities Healthcare and public health Information technology Nuclear reactors materials and waste Transportation systems Water and wastewater systemsNational Monuments and Icons along with the postal and shipping sector were removed in 2013 update to the NIPP The 2013 version of the NIPP has faced criticism for lacking viable risk measures 10 11 The plan assigns the following agencies sector specific coordination responsibilities Department of Homeland SecurityChemical Commercial facilities Communications Critical manufacturing Dams Emergency services Government facilities jointly with General Services Administration Information technology Nuclear reactors materials and waste Transportation systems jointly with Department of Transportation Department of DefenseDefense industrial baseDepartment of EnergyEnergyDepartment of the TreasuryFinancial servicesDepartment of AgricultureFood and agricultureGeneral Services AdministrationGovernment facilities jointly with Department of Homeland Security Department of Health and Human ServicesHealthcare and Public HealthDepartment of TransportationTransportation systems jointly with Department of Homeland Security Environmental Protection AgencyWater and wastewater systemsState level legislation Edit Several U S states have passed critical infrastructure bills promoted by the American Legislative Exchange Council ALEC to criminalize protests against the fossil fuel industry 12 In May 2017 Oklahoma passed legislation which created felony penalties for trespassing on land considered critical infrastructure including oil and gas pipelines or conspiring to do so ALEC introduced a version of the bill as a model act and encouraged other states to adopt it 13 In June 2020 West Virginia passed the Critical Infrastructure Protection Act which created felony penalties for protests against oil and gas facilities 14 Stress testing EditCritical infrastructure CI such as highways railways electric power networks dams port facilities major gas pipelines or oil refineries are exposed to multiple natural and human induced hazards and stressors including earthquakes landslides floods tsunami wildfires climate change effects or explosions These stressors and abrupt events can cause failures and losses and hence can interrupt essential services for the society and the economy 15 Therefore CI owners and operators need to identify and quantify the risks posed by the CIs due to different stressors in order to define mitigation strategies 16 and improve the resilience of the CIs 17 18 Stress tests are advanced and standardised tools for hazard and risk assessment of CIs that include both low probability high consequence LP HC events and so called extreme or rare events as well as the systematic application of these new tools to classes of CI Stress testing is the process of assessing the ability of a CI to maintain a certain level of functionality under unfavourable conditions while stress tests consider LP HC events which are not always accounted for in the design and risk assessment procedures commonly adopted by public authorities or industrial stakeholders A multilevel stress test methodology for CI has been developed in the framework of the European research project STREST 19 consisting of four phases 20 Phase 1 Preassessment during which the data available on the CI risk context and on the phenomena of interest hazard context are collected The goal and objectives the time frame the stress test level and the total costs of the stress test are defined Phase 2 Assessment during which the stress test at the component and the system scope is performed including fragility 21 and risk 22 analysis of the CIs for the stressors defined in Phase 1 The stress test can result in three outcomes Pass Partly Pass and Fail based on the comparison of the quantified risks to acceptable risk exposure levels and a penalty system Phase 3 Decision during which the results of the stress test are analyzed according to the goal and objectives defined in Phase 1 Critical events events that most likely cause the exceedance of a given level of loss and risk mitigation strategies are identified Phase 4 Report during which the stress test outcome and risk mitigation guidelines based on the findings established in Phase 3 are formulated and presented to the stakeholders This stress testing methodology has been demonstrated to six CIs in Europe at component and system level 23 an oil refinery and petrochemical plant in Milazzo Italy a conceptual alpine earth fill dam in Switzerland the Baku Tbilisi Ceyhan pipeline in Turkey part of the Gasunie national gas storage and distribution network in the Netherlands the port infrastructure of Thessaloniki Greece and an industrial district in the region of Tuscany Italy The outcome of the stress testing included the definition of critical components and events and risk mitigation strategies which are formulated and reported to stakeholders See also EditIndustrial antiterrorism Infrastructure Infrastructure security Civil defense ParamilitaryReferences Edit National Cross Sector Forum 2021 2023 Action Plan for Critical Infrastructure May 26 2021 National Strategy for Critical Infrastructure December 21 2018 Nationale Strategie zum Schutz Kritischer Infrastrukturen KRITIS Strategie PDF Archived from the original PDF on September 15 2017 Retrieved September 17 2010 Protected Areas and Protected Places Act Singapore Statutes Online sso agc gov sg Government of Singapore December 31 2013 Retrieved October 15 2022 Infrastructure Protection Act 2017 Singapore Statutes Online sso agc gov sg October 2 2017 Retrieved October 15 2022 Infrastructure Protection Act police gov sg Singapore Police Force March 14 2019 Retrieved October 15 2022 Protecting Infrastructure mha gov sg Ministry of Home Affairs Retrieved October 15 2022 NIST Cybersecurity Framework Adoption Hampered By Costs Survey Finds Dark Reading March 30 2016 Retrieved August 2 2016 Presidential Policy Directive Critical Infrastructure Security and Resilience whitehouse gov February 12 2013 Retrieved March 12 2019 White R February 13 2014 Towards a Unified Homeland Security Strategy An Asset Vulnerability Model Homeland Security Affairs Retrieved February 26 2015 Kahan J February 4 2015 Resilience Redux Buzzword or Basis for Homeland Security Homeland Security Affairs Retrieved February 28 2015 Brown Alleen Lacy Akela January 12 2021 In Wake of Capitol Riot GOP Legislatures Rebrand Old Anti BLM Protest Laws The Intercept Retrieved February 10 2021 Brown Alleen May 23 2019 Pipeline Opponents Strike Back Against Anti Protest Laws The Intercept Retrieved February 13 2021 Brown Alleen June 7 2020 A Powerful Petrochemical Lobbying Group Advanced Anti Protest Legislation in the Midst of the Pandemic The Intercept Retrieved February 13 2021 Pescaroli Gianluca Alexander David May 1 2016 Critical infrastructure panarchies and the vulnerability paths of cascading disasters Natural Hazards 82 1 175 192 doi 10 1007 s11069 016 2186 3 ISSN 1573 0840 Mignan A Karvounis D Broccardo M Wiemer S Giardini D March 2019 Including seismic risk mitigation measures into the Levelized Cost Of Electricity in enhanced geothermal systems for optimal siting Applied Energy 238 831 850 doi 10 1016 j apenergy 2019 01 109 Linkov Igor Bridges Todd Creutzig Felix Decker Jennifer Fox Lent Cate Kroger Wolfgang Lambert James H Levermann Anders Montreuil Benoit Nathwani Jatin Nyer Raymond June 2014 Changing the resilience paradigm Nature Climate Change 4 6 407 409 Bibcode 2014NatCC 4 407L doi 10 1038 nclimate2227 ISSN 1758 6798 S2CID 85351884 Argyroudis Sotirios A Mitoulis Stergios A Hofer Lorenzo Zanini Mariano Angelo Tubaldi Enrico Frangopol Dan M April 2020 Resilience assessment framework for critical infrastructure in a multi hazard environment Case study on transport assets PDF Science of the Total Environment 714 136854 Bibcode 2020ScTEn 714m6854A doi 10 1016 j scitotenv 2020 136854 PMID 32018987 S2CID 211036128 STREST Harmonized approach to stress tests for critical infrastructures against natural hazards Funded from the European Union s Seventh Framework Programme FP7 2007 2013 under grant agreement no 603389 Project Coordinator Domenico Giardini Project Manager Arnaud Mignan ETH Zurich Esposito Simona Stojadinovic Bozidar Babic Anze Dolsek Matjaz Iqbal Sarfraz Selva Jacopo Broccardo Marco Mignan Arnaud Giardini Domenico March 1 2020 Risk Based Multilevel Methodology to Stress Test Critical Infrastructure Systems Journal of Infrastructure Systems 26 1 04019035 doi 10 1061 ASCE IS 1943 555X 0000520 S2CID 214354801 Pitilakis K Crowley H Kaynia A M eds 2014 SYNER G Typology Definition and Fragility Functions for Physical Elements at Seismic Risk Geotechnical Geological and Earthquake Engineering Vol 27 Dordrecht Springer Netherlands doi 10 1007 978 94 007 7872 6 ISBN 978 94 007 7871 9 S2CID 133078584 Pitilakis K Franchin P Khazai B Wenzel H eds 2014 SYNER G Systemic Seismic Vulnerability and Risk Assessment of Complex Urban Utility Lifeline Systems and Critical Facilities Geotechnical Geological and Earthquake Engineering Vol 31 Dordrecht Springer Netherlands doi 10 1007 978 94 017 8835 9 ISBN 978 94 017 8834 2 S2CID 107566163 Argyroudis Sotirios A Fotopoulou Stavroula Karafagka Stella Pitilakis Kyriazis Selva Jacopo Salzano Ernesto Basco Anna Crowley Helen Rodrigues Daniela Matos Jose P Schleiss Anton J 2020 A risk based multi level stress test methodology application to six critical non nuclear infrastructures in Europe PDF Natural Hazards 100 2 595 633 doi 10 1007 s11069 019 03828 5 ISSN 1573 0840 S2CID 209432723 External links EditInfracritical comparison of US and international definitions of infrastructure Retrieved from https en wikipedia org w index php title Critical infrastructure amp oldid 1159423352, wikipedia, wiki, book, books, library,

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