A Geospatial Verification Method for Severe Convective Weather Warnings: Implications for Current and Future Warning Methods

Stumpf, Gregory J.; Stough, Sarah M.

doi:10.1175/WAF-D-23-0153.1

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i

A Geospatial Verification Method for Severe Convective Weather Warnings: Implications for Current and Future Warning Methods

2024
By Stumpf, Gregory J. ; Stough, Sarah M.
Source: Weather and Forecasting, 39(5), 689-704

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Journal Title:

Weather and Forecasting
Personal Author:

Stumpf, Gregory J. ; Stough, Sarah M.

Stumpf, Gregory J. ; Stough, Sarah M. Less -
NOAA Program & Office:

NWS (National Weather Service) ; OAR (Oceanic and Atmospheric Research) ; CIRA (Cooperative Institute for Research in the Atmosphere) ; CIWRO (Cooperative Institute for Severe and High-Impact Weather Research and Operations) ; NSSL (National Severe Storms Laboratory) ; ... More +

NWS (National Weather Service) ; OAR (Oceanic and Atmospheric Research) ; CIRA (Cooperative Institute for Research in the Atmosphere) ; CIWRO (Cooperative Institute for Severe and High-Impact Weather Research and Operations) ; NSSL (National Severe Storms Laboratory) ; OSTI (Office of Science and Technology Integration) Less -
Description:

Legacy National Weather Service verification techniques, when applied to current static severe convective warnings, exhibit limitations, particularly in accounting for the precise spatial and temporal aspects of warnings and severe convective events. Consequently, they are not particularly well suited for application to some proposed future National Weather Service warning delivery methods considered under the Forecasting a Continuum of Environmental Threats (FACETs) initiative. These methods include threats-in-motion (TIM), wherein warning polygons move nearly continuously with convective hazards, and probabilistic hazard information (PHI), a concept that involves augmenting warnings with rapidly updating probabilistic plumes. A new geospatial verification method was developed and evaluated, by which warnings and observations are placed on equivalent grids within a common reference frame, with each grid cell being represented as a hit, miss, false alarm, or correct null for each minute. New measures are computed, including false alarm area and location-specific lead time, departure time, and false alarm time. Using the 27 April 2011 tornado event, we applied the TIM and PHI warning techniques to demonstrate the benefits of rapidly updating warning areas, showcase the application of the geospatial verification method within this novel warning framework, and highlight the impact of varying probabilistic warning thresholds on warning performance. Additionally, the geospatial verification method was tested on a storm-based warning dataset (2008–22) to derive annual, monthly, and hourly statistics.
Source:

Weather and Forecasting, 39(5), 689-704
DOI:

https://doi.org/10.1175/WAF-D-23-0153.1
ISSN:

0882-8156;1520-0434;
Format:

PDF
Publisher:

American Meteorological Society
Document Type:

Journal Article
Funding:

Grant no. NA19OAR4320073
Rights Information:

Other
Compliance:

Submitted
Main Document Checksum:

[+]

urn:sha256:2c5805e22cccf91cfdb6ffc3936bddfd63531a771193c2ad215d49b225bf7d8f
Download URL:

https://repository.library.noaa.gov/view/noaa/61126/noaa_61126_DS1.pdf
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A Geospatial Verification Method for Severe Convective Weather Warnings: Implications for Current and Future Warning Methods

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