AbstractDependency analysis of critical infrastructures is a computationally intensive problem when dealing with large-scale, cross-sectoral, cascading and common-cause failures. The problem intensifies when attempting a dynamic, time-based dependency analysis. This paper extends a previous graph-based risk analysis methodology to dynamically assess the evolution of cascading failures over time. Various growth models are employed to capture slow, linear and rapidly evolving effects, but instead of using static projections, the evolution of each dependency is “objectified” by a fuzzy system that also considers the effects of nearby dependencies. To achieve this, the impact (and, eventually, risk) of each dependency is quantified on the time ...
Over the years, Critical Infrastructures (CIs) have become increasingly automated and interlinked. T...
Part 4: Infrastructure Modeling and SimulationInternational audienceOne of the most challenging prob...
Growing scientific evidence suggests that risks due to failure of critical infrastructures (CIs) wil...
Dependency analysis of critical infrastructures is a computationally intensive problem when dealing ...
One of the most challenging problems in Critical Infrastructure (CI) protection is the assessment an...
This paper applies research in dependency modelling to a process-based risk assessment methodology s...
Critical Infrastructures are known for their complexity and the strong interdependencies between the...
One way to model cascading critical infrastructure failures is through dependency risk graphs. These...
AbstractDependency risk graphs have been proposed as a tool for analyzing cascading failures due to ...
Critical infrastructure (CI) services are consumed by the society constantly and we expect them to b...
Part 6: RISK AND IMPACT ASSESSMENTInternational audienceOne way to model cascading critical infrastr...
Abstract One way to model cascading critical infrastructure failures is through dependency risk grap...
Dependency risk graphs have been proposed as a tool for analyzing cascading failures due to critical...
As critical systems shall withstand different types of perturbations affecting their functionalities...
The disruption of any critical infrastructural sector has the potential to create significant direct...
Over the years, Critical Infrastructures (CIs) have become increasingly automated and interlinked. T...
Part 4: Infrastructure Modeling and SimulationInternational audienceOne of the most challenging prob...
Growing scientific evidence suggests that risks due to failure of critical infrastructures (CIs) wil...
Dependency analysis of critical infrastructures is a computationally intensive problem when dealing ...
One of the most challenging problems in Critical Infrastructure (CI) protection is the assessment an...
This paper applies research in dependency modelling to a process-based risk assessment methodology s...
Critical Infrastructures are known for their complexity and the strong interdependencies between the...
One way to model cascading critical infrastructure failures is through dependency risk graphs. These...
AbstractDependency risk graphs have been proposed as a tool for analyzing cascading failures due to ...
Critical infrastructure (CI) services are consumed by the society constantly and we expect them to b...
Part 6: RISK AND IMPACT ASSESSMENTInternational audienceOne way to model cascading critical infrastr...
Abstract One way to model cascading critical infrastructure failures is through dependency risk grap...
Dependency risk graphs have been proposed as a tool for analyzing cascading failures due to critical...
As critical systems shall withstand different types of perturbations affecting their functionalities...
The disruption of any critical infrastructural sector has the potential to create significant direct...
Over the years, Critical Infrastructures (CIs) have become increasingly automated and interlinked. T...
Part 4: Infrastructure Modeling and SimulationInternational audienceOne of the most challenging prob...
Growing scientific evidence suggests that risks due to failure of critical infrastructures (CIs) wil...