Population Vulnerability Models for Asteroid Impact Risk Assessment
Clemens M. Rumpf, Hugh G. Lewis, Peter M. Atkinson

TL;DR
This paper introduces new vulnerability models integrated into the ARMOR software to estimate human casualties from asteroid impacts by assessing various impact effects and their severity on populations worldwide.
Contribution
The paper develops and applies novel vulnerability models linking impact effects to human lethality, enhancing asteroid impact risk assessment accuracy.
Findings
Aerothermal effects are most harmful in general.
Tsunamis dominate impact risk in deep water impacts.
Continental shelves reduce tsunami hazard.
Abstract
An asteroid impact is a low probability event with potentially devastating consequences. The Asteroid Risk Mitigation Optimization and Research (ARMOR) software tool calculates whether a colliding asteroid experiences an airburst or surface impact and calculates effect severity as well as reach on the global map. To calculate the consequences of an impact in terms of loss of human life, new vulnerability models are derived that connect the severity of seven impact effects (strong winds, overpressure shockwave, thermal radiation, seismic shaking, ejecta deposition, cratering and tsunamis) with lethality to human populations. With the new vulnerability models ARMOR estimates casualties of an impact under consideration of the local population and geography. The presented algorithms and models are employed in two case studies to estimate total casualties as well as the damage contribution…
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