International audienceIn this paper, we propose two metrics, i.e. the optimal repair time and the resilience reduction worth, to measure the criticality of the components of a network system from the perspective of their contribution to system resilience. Specifically, the two metrics quantify (i) the priority with which a failed component should be repaired and re-installed into the network, and (ii) the potential loss in the optimal system resilience due to a time delay in the recovery of a failed component, respectively. Given the stochastic nature of disruptive events on infrastructure networks, a Monte Carlo-based method is proposed to generate probability distributions of the two metrics for all the components of the network; then, a ...
Promoting the resilience of critical infrastructure, when subjected to different hazardous events, i...
The term resilience is used differently by different communities. In general engineering systems, fa...
International audienceReliable and safe critical infrastructures are crucial for the sustainability ...
International audienceIn this paper, we propose two metrics, i.e., the optimal repair time and the r...
The identification of important components with the potential for the most disruption is vital in ne...
Critical infrastructures (CI) are very complex and highly interdependent systems, networks and asset...
Network resilience to a disruption is generally considered to be a function of the initial impact of...
Due to the ubiquitous nature of disruptive extreme events, functionality of the critical infrastruct...
Abstract: This paper proposes an approach to resilience engineering for transport critical infrastru...
In interdependent critical infrastructures (ICIs), a disruptive event can affect multiple system ele...
<div><p>Due to the ubiquitous nature of disruptive extreme events, functionality of the critical inf...
International audienceBased upon a novel control-based dynamic modelling framework, this paper propo...
Preparedness and resilience planning for critical infrastructure networks requires evaluating the im...
Critical infrastructure systems (CIS) are highly connected to human life and industrial productions....
Promoting the resilience of critical infrastructure, when subjected to different hazardous events, i...
The term resilience is used differently by different communities. In general engineering systems, fa...
International audienceReliable and safe critical infrastructures are crucial for the sustainability ...
International audienceIn this paper, we propose two metrics, i.e., the optimal repair time and the r...
The identification of important components with the potential for the most disruption is vital in ne...
Critical infrastructures (CI) are very complex and highly interdependent systems, networks and asset...
Network resilience to a disruption is generally considered to be a function of the initial impact of...
Due to the ubiquitous nature of disruptive extreme events, functionality of the critical infrastruct...
Abstract: This paper proposes an approach to resilience engineering for transport critical infrastru...
In interdependent critical infrastructures (ICIs), a disruptive event can affect multiple system ele...
<div><p>Due to the ubiquitous nature of disruptive extreme events, functionality of the critical inf...
International audienceBased upon a novel control-based dynamic modelling framework, this paper propo...
Preparedness and resilience planning for critical infrastructure networks requires evaluating the im...
Critical infrastructure systems (CIS) are highly connected to human life and industrial productions....
Promoting the resilience of critical infrastructure, when subjected to different hazardous events, i...
The term resilience is used differently by different communities. In general engineering systems, fa...
International audienceReliable and safe critical infrastructures are crucial for the sustainability ...