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|Abschlussarbeitsstatus=Offen
 
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|Beschreibung DE=<strong>Background:</strong>
 
|Beschreibung DE=<strong>Background:</strong>
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Critical information infrastructures (CII) are sociotechnical systems comprising essential software components, networks and information systems with pivotal impact on individuals, organizations, governments, economies, and society. These CII are operated in different domains like energy (electricity, oil, or gas management systems), transport (air, rail, or water transport), banking, health care, and digital infrastructures (internet exchange points or DNS service providers). The complexity of CII is ever-increasing as CII are becoming more interconnected. Furthermore, CII providers might outsource some of their systems to third-party providers. Such interconnection leads to entangled infrastructures with various actors and systems that are highly interdependent on each other. This interdependence also leads to unique threats: cascading failures that might affect all connected infrastructures and high requirements for security and reliability between and within interconnected CII.
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<strong>Objective(s):</strong>
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This thesis aims to create a better understanding about new challenged and threats that result from the interconnection of critical infrastructures. Students are required to identify and group challenges and threats of interconnected CII.
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<strong>Introductory literature:</strong>
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Adelmeyer, A.; Petrick, C.; Teuteberg, F.  "14. Cloud-Services in Kritischen Infrastrukturen – Anforderungen und IT-Risikomanagement" available at: https://www.springerprofessional.de/cloud-services-in-kritischen-infrastrukturen-anforderungen-und-i/15726060S.
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M. Rinaldi " Modeling and simulating critical infrastructures and their interdependencies " available at: https://ieeexplore.ieee.org/abstract/document/1265180/
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Richard G. Little "Controlling Cascading Failure: Understanding the Vulnerabilities of Interconnected Infrastructures" available at: https://www.researchgate.net/profile/Richard_Little5/publication/233202111_Controlling_Cascading_Failure_Understanding_The_Vulnerabilities_of_Interconnected_Infrastructures/links/5751e14608ae10d93370e4cc/Controlling-Cascading-Failure-Understanding-The-Vulnerabilities-of-Interconnected-Infrastructures.pdf|Beschreibung EN=<strong>Background:</strong>
  
 
Critical information infrastructures (CII) are sociotechnical systems comprising essential software components, networks and information systems with pivotal impact on individuals, organizations, governments, economies, and society. These CII are operated in different domains like energy (electricity, oil, or gas management systems), transport (air, rail, or water transport), banking, health care, and digital infrastructures (internet exchange points or DNS service providers). The complexity of CII is ever-increasing as CII are becoming more interconnected. Furthermore, CII providers might outsource some of their systems to third-party providers. Such interconnection leads to entangled infrastructures with various actors and systems that are highly interdependent on each other. This interdependence also leads to unique threats: cascading failures that might affect all connected infrastructures and high requirements for security and reliability between and within interconnected CII.
 
Critical information infrastructures (CII) are sociotechnical systems comprising essential software components, networks and information systems with pivotal impact on individuals, organizations, governments, economies, and society. These CII are operated in different domains like energy (electricity, oil, or gas management systems), transport (air, rail, or water transport), banking, health care, and digital infrastructures (internet exchange points or DNS service providers). The complexity of CII is ever-increasing as CII are becoming more interconnected. Furthermore, CII providers might outsource some of their systems to third-party providers. Such interconnection leads to entangled infrastructures with various actors and systems that are highly interdependent on each other. This interdependence also leads to unique threats: cascading failures that might affect all connected infrastructures and high requirements for security and reliability between and within interconnected CII.

Version vom 17. Mai 2018, 08:07 Uhr



Challenges and Threats in Interconnected Critical Infrastructures




Informationen zur Arbeit

Abschlussarbeitstyp: Bachelor, Master
Betreuer: Sebastian LinsTobias Dehling
Forschungsgruppe: Critical Information Infrastructures

Archivierungsnummer: 4302
Abschlussarbeitsstatus: Offen
Beginn: unbekannt
Abgabe: unbekannt

Weitere Informationen

Background:

Critical information infrastructures (CII) are sociotechnical systems comprising essential software components, networks and information systems with pivotal impact on individuals, organizations, governments, economies, and society. These CII are operated in different domains like energy (electricity, oil, or gas management systems), transport (air, rail, or water transport), banking, health care, and digital infrastructures (internet exchange points or DNS service providers). The complexity of CII is ever-increasing as CII are becoming more interconnected. Furthermore, CII providers might outsource some of their systems to third-party providers. Such interconnection leads to entangled infrastructures with various actors and systems that are highly interdependent on each other. This interdependence also leads to unique threats: cascading failures that might affect all connected infrastructures and high requirements for security and reliability between and within interconnected CII.


Objective(s):

This thesis aims to create a better understanding about new challenged and threats that result from the interconnection of critical infrastructures. Students are required to identify and group challenges and threats of interconnected CII.


Introductory literature:

Adelmeyer, A.; Petrick, C.; Teuteberg, F.  "14. Cloud-Services in Kritischen Infrastrukturen – Anforderungen und IT-Risikomanagement" available at: https://www.springerprofessional.de/cloud-services-in-kritischen-infrastrukturen-anforderungen-und-i/15726060S.

M. Rinaldi " Modeling and simulating critical infrastructures and their interdependencies " available at: https://ieeexplore.ieee.org/abstract/document/1265180/

Richard G. Little "Controlling Cascading Failure: Understanding the Vulnerabilities of Interconnected Infrastructures" available at: https://www.researchgate.net/profile/Richard_Little5/publication/233202111_Controlling_Cascading_Failure_Understanding_The_Vulnerabilities_of_Interconnected_Infrastructures/links/5751e14608ae10d93370e4cc/Controlling-Cascading-Failure-Understanding-The-Vulnerabilities-of-Interconnected-Infrastructures.pdf