Journal
NATURAL HAZARDS
Volume 111, Issue 2, Pages 1121-1152Publisher
SPRINGER
DOI: 10.1007/s11069-021-05118-5
Keywords
Community resilience; Game theory; Agent-based modeling; Computational models; Interdependencies
Funding
- Department of Civil Engineering at the University of Kentucky
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This paper reviews the latest computational methods for modeling community resilience in the past 10 years, discussing static and dynamic computational models, including rating models for community resilience assessment and probabilistic modeling in uncertain environments.
Protecting civil infrastructure from natural and man-made hazards is vital. Understanding the impact of these hazards helps allocate resources efficiently. Researchers have recently proposed static and dynamic computational models for community resilience analyses to evaluate a community's ability to recover after a disruptive event. Yet, these frameworks still need to adequately address community interdependencies and consider the impact of decision-making in modeling. This paper presents a state-of-the-art review of computational methods to model community resilience, focusing on the last 10 years. It addresses critical terminology, community interdependencies, and current resilience guides within community resilience comprehension and discusses static and dynamic computational models, including probabilistic modeling in uncertain environments, rating models for community resilience assessment, optimization-based modeling for resilient community design, game theory, agent-based, and probabilistic dynamical modeling. This paper presents key findings of promising research for future directions in the community resilience field.
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