Abstract
The retrofit of wood-frame residential buildings is a relatively effective strategy to mitigate damage caused by windstorms. However, little is known about the effect of modifying building performance for intense events such as a tornado and the subsequent social and economic impacts that result at the community level following an event. This paper presents a method that enables a community to select residential building performance levels representative of either retrofitting or adopting a new design code that computes target community metrics for the effects on the economy and population. Although not a full risk analysis, a series of generic tornado scenarios for different Enhanced Fujita (EF) ratings are simulated, and five resilience metrics are assigned to represent community goals based on economic and population stability. To accomplish this, the functionality of the buildings following the simulated tornado is used as input to a computable general equilibrium (CGE) economics model that predicts household income, employment, and domestic supply at the community level. Population dislocation as a function of building damage and detailed sociodemographic US census-based data is also predicted and serves as a core community resilience metric. Finally, this proposed methodology demonstrates how the metrics can help meet community-level resilience objectives for decision support based on a level of design code improvement or retrofit level. The method is demonstrated for Joplin, Missouri. All analyses and data have been developed and made available on the open-source IN-CORE modeling environment. The proposed multidisciplinary methodology requires continued research to characterize the uncertainty in the decision support results.
Highlights
The performance of civil infrastructure systems supports community resilience but has been primarily controlled by probability-based limit states design over the last several decades (e.g., ASCE 7-16).In 2015, the US National Institute of Standards and Technology (NIST) proposed a general framework to help communities develop resilience plans for building clusters and infrastructure associated with social and economic systems (NIST 2015)
This study examined the community resilience impacted by 100 random tornadoes for each different intensity level (i.e., EF2, EF3, EF4) individually in line with the concept encouraged in the NIST Community Resilience Planning Guide (NCRPG)
A set of core resilience metrics includes the percent of buildings that are analytically predicted to remain functional, the percent of households or population dislocated, and the percent change in the local economy
Summary
The functionality of the buildings following the simulated tornado is used as input to a computable general equilibrium (CGE) economics model that predicts household income, employment, and domestic supply at the community level. In the present study, building functionality, employment, domestic supply, household income, and housing unit and population dislocation are used as physical and socioeconomic resilience metrics in the context of a disaster.
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