Sensitivity to Uncertainty in Asteroid Impact Risk Assessment
Abstract
The Engineering Risk Assessment (ERA) team at NASA Ames Research Center is developing a physics-based impact risk model for probabilistically assessing threats from potential asteroid impacts on Earth. The model integrates probabilistic sampling of asteroid parameter ranges with physics-based analyses of entry, breakup, and impact to estimate damage areas and casualties from various impact scenarios. Assessing these threats is a highly coupled, dynamic problem involving significant uncertainties in the range of expected asteroid characteristics, how those characteristics may affect the level of damage, and the fidelity of various modeling approaches and assumptions. The presented model is used to explore the sensitivity of impact risk estimates to these uncertainties in order to gain insight into what additional data or modeling refinements are most important for producing effective, meaningful risk assessments. In the extreme cases of very small or very large impacts, the results are generally insensitive to many of the characterization and modeling assumptions. However, the nature of the sensitivity can change across moderate-sized impacts. Results will focus on the value of additional information in this critical, mid-size range, and how this additional data can support more robust mitigation decisions.
- Publication:
-
AGU Fall Meeting Abstracts
- Pub Date:
- December 2015
- Bibcode:
- 2015AGUFMNH14B..06M
- Keywords:
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- 4333 Disaster risk analysis and assessment;
- NATURAL HAZARDS;
- 4339 Disaster mitigation;
- NATURAL HAZARDS;
- 6022 Impact phenomena;
- PLANETARY SCIENCES: COMETS AND SMALL BODIES;
- 6205 Asteroids;
- PLANETARY SCIENCES: SOLAR SYSTEM OBJECTS