Dynamic Modeling of the Economic Impacts of a Terrorist Attack using a Radiological Dispersion Device

Abstract

The purpose of this research is to model the dynamic economic influences associated with an attack using a radiological dispersion device (RDD). Specifically, this thesis seeks to identify the variables associated with the total economic impact to the local community where the attack occurs and gain better insights into how local, state and federal entities can employ various policy decisions to bring the system under control within the first year of recovery. Of primary interest to the research is the problematic behavior of exponential economic impact and how the final accumulation of fiscal cost can be reduced. Using a system dynamics research method and the dynamic modeling software STELLA, considerations such as controlling the media's influence on public fear, consumer confidence, community resilience, and community recovery are incorporated with fiscal impact stocks such as business losses, tax revenue losses, and response costs. Once combined, the model uses historical examples of responses and recommendations from the latest EPA guidance to examine the effect on the impacted community's recovery and total fiscal impact

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 2009

Accession Number

ADA502576

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