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Understanding Community Resilience from a PRA Perspective Using Binary Decision Diagrams

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  • Saeed Nozhati
  • Bruce R. Ellingwood
  • Hussam Mahmoud

Abstract

Probabilistic risk assessment (PRA) is a useful tool to assess complex interconnected systems. This article leverages the capabilities of PRA tools developed for industrial and nuclear risk analysis in community resilience evaluations by modeling the food security of a community in terms of its built environment as an integrated system. To this end, we model the performance of Gilroy, CA, a moderate‐size town, with regard to disruptions in its food supply caused by a severe earthquake. The food retailers of Gilroy, along with the electrical power network, water network elements, and bridges are considered as components of a system. Fault and event trees are constructed to model the requirements for continuous food supply to community residents and are analyzed efficiently using binary decision diagrams (BDDs). The study also identifies shortcomings in approximate classical system analysis methods in assessing community resilience. Importance factors are utilized to rank the importance of various factors to the overall risk of food insecurity. Finally, the study considers the impact of various sources of uncertainties in the hazard modeling and performance of infrastructure on food security measures. The methodology can be applicable for any existing critical infrastructure system and has potential extensions to other hazards.

Suggested Citation

  • Saeed Nozhati & Bruce R. Ellingwood & Hussam Mahmoud, 2019. "Understanding Community Resilience from a PRA Perspective Using Binary Decision Diagrams," Risk Analysis, John Wiley & Sons, vol. 39(10), pages 2127-2142, October.
  • Handle: RePEc:wly:riskan:v:39:y:2019:i:10:p:2127-2142
    DOI: 10.1111/risa.13321
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    Cited by:

    1. Mohamed A. Abdelhafez & Hussam N. Mahmoud & Bruce R. Ellingwood, 2024. "Adjusting to the reality of sea level rise: reshaping coastal communities through resilience-informed adaptation," Climatic Change, Springer, vol. 177(7), pages 1-20, July.
    2. Nozhati, Saeed & Sarkale, Yugandhar & Chong, Edwin K.P. & Ellingwood, Bruce R., 2020. "Optimal stochastic dynamic scheduling for managing community recovery from natural hazards," Reliability Engineering and System Safety, Elsevier, vol. 193(C).

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