Bridging Dynamics and Statistics: Transfer Entropy, Nonlinear Interactions and Transient G — NSF Award to University of Missouri-C
Extreme events such as heat waves and wildfire outbreaks can threaten lives, property, ecosystems, infrastructure, and economic activity. These events often occur quite suddenly, are clustered in space, and arise from complicated interactions among weather, ecosystem, land, and ocean processes. Current forecasting meth
| Award title | Bridging Dynamics and Statistics: Transfer Entropy, Nonlinear Interactions and Transient G |
|---|---|
| Award ID | 2610253 |
| Awardee | University of Missouri-Columbia |
| City | COLUMBIA |
| State | MO |
| Amount obligated | $270,000 |
| Principal investigator | Christopher Wikle |
| Program | STATISTICS |
| Start date | 07/01/2026 |
| Abstract | Extreme events such as heat waves and wildfire outbreaks can threaten lives, property, ecosystems, infrastructure, and economic activity. These events often occur quite suddenly, are clustered in space, and arise from complicated interactions among weather, ecosystem, land, and ocean processes. Current forecasting methods can have difficulty detecting when ordinary conditions may rapidly develop into damaging extremes, especially when multiple hidden drivers interact over space and time. This pr |
| Source | NSF Awards |
$799/mo
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