John van de Lindt scite author profile

Water and wastewater network, electric power network, transportation network, communication network, and information technology network are among the critical infrastructure in our communities; their disruption during and after hazard events greatly affects communities’ well-being, economic security, social welfare, and public health. In addition, a disruption in one network may cause disruption to other networks and lead to their reduced functionality. This paper presents a unified theoretical methodology for the modeling of dependent/interdependent infrastructure networks and incorporates it in a six-step probabilistic procedure to assess their resilience. Both the methodology and the procedure are general, can be applied to any infrastructure network and hazard, and can model different types of dependencies between networks. As an illustration, the paper models the direct effects of seismic events on the functionality of a potable water distribution network and the cascading effects of the damage of the electric power network (EPN) on the potable water distribution network (WN). The results quantify the loss of functionality and delay in the recovery process due to dependency of the WN on the EPN. The results show the importance of capturing the dependency between networks in modeling the resilience of critical infrastructure.

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Seismic risk of base isolated non-ductile reinforced concrete buildings considering uncertainties and mainshock–aftershock sequences

Han

Lindt

2014

Structural Safety

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Experimental Investigation of Self-Centering Cross-Laminated Timber Walls

Ganey¹,

et al. 2017

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Evaluation of Tsunami Loads on Wood-Frame Walls at Full Scale

et al. 2013

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Assessment of Seismic Performance of Buildings with Incorporation of Aftershocks

Han

Lindt

2015

J. Perform. Constr. Facil.

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John van de Lindt

Modeling the resilience of critical infrastructure: the role of network dependencies

Seismic risk of base isolated non-ductile reinforced concrete buildings considering uncertainties and mainshock–aftershock sequences

Experimental Investigation of Self-Centering Cross-Laminated Timber Walls

Evaluation of Tsunami Loads on Wood-Frame Walls at Full Scale

Assessment of Seismic Performance of Buildings with Incorporation of Aftershocks

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