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A Perspective towards Multi-Hazard Resilient Systems: Natural Hazards and Pandemics

Mohammad Amin Hariri‐Ardebili, Siamak Sattar, Katherine Johnson, Christopher Clavin, Juan F. Fung, Luis Ceferino

2022Sustainability22 citationsDOIOpen Access PDF

Abstract

The concept of resilience has been used extensively across the sciences in engineering and the humanities. It is applied to ecology, medicine, economics, and psychology. The novel coronavirus disease (COVID-19) has posed an extraordinary challenge to the resilience of healthcare systems, communities, and nations and has profoundly altered our previous day-to-day operations. This paper presents a discussion of the definitions and characteristics of resilient systems. Scenarios are utilized to qualitatively explore key relationships, responses, and paths for recovery across different system types. The purpose is to develop an integrated approach that can accommodate simultaneous threats to system resilience, in particular, impacts from a natural hazard in conjunction with COVID-19. This manuscript is the first to advocate for more in-depth and quantitative research utilizing transdisciplinary approaches that can accommodate considerations across our built environment and healthcare system infrastructures in pursuit of designing systems that are resilient to both natural hazards and pandemic impacts.

Topics & Concepts

Resilience (materials science)Natural hazardHazardPandemicNatural (archaeology)Psychological resilienceRisk analysis (engineering)Perspective (graphical)Natural disasterEnvironmental resource managementCoronavirus disease 2019 (COVID-19)Environmental planningComputer scienceGeographyBusinessEcologyEnvironmental scienceDiseasePsychologyMedicineArtificial intelligenceInfectious disease (medical specialty)BiologyMeteorologyPhysicsThermodynamicsPsychotherapistPathologyArchaeologyInfrastructure Resilience and Vulnerability AnalysisDisaster Management and ResilienceDisaster Response and Management