n Atmospheric releases are one of the most highly effective and rapid means to
impact large populations
n Primary uncertainty due to unknown sources and meteorology
n Our approach couples data and predictive models to provide
• Backwards analyses to determine unknown source characteristics
• Optimal forward predictions for consequence assessment
• Dynamic reduction in uncertainty as additional data become available
| Date Of Record Release | 2010-04-09 16:57:55 |
|---|---|
| Description | n Atmospheric releases are one of the most highly effective and rapid means to impact large populations n Primary uncertainty due to unknown sources and meteorology n Our approach couples data and predictive models to provide • Backwards analyses to determine unknown source characteristics • Optimal forward predictions for consequence assessment • Dynamic reduction in uncertainty as additional data become available |
| Classification | |
| Resource Type | |
| Format | |
| Subject | |
| Source | National Atmospheric Release Advisory Center (NARAC) |
| Keyword | Presentation, Atmospheric dispersion |
| Selector | Stith |
| Date Of Record Creation | 2010-04-09 16:51:31 |
| Education Level | |
| Date Last Modified | 2010-04-09 17:14:56 |
| Creator | Gayle Sugiyama, Stevens Chan, Tina Chow, et al. |
| Language | English |
1999–2013 Advanced Technology Environmental and Energy Center | Leave Feedback
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