T he Man-In-The-Loop (MITL) Nowcast Demonstration: Forecaster Input into a Thunderstorm Nowcasting System R. Roberts, T. Saxen, C. Mueller, E. Nelson,

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Presentation transcript:

T he Man-In-The-Loop (MITL) Nowcast Demonstration: Forecaster Input into a Thunderstorm Nowcasting System R. Roberts, T. Saxen, C. Mueller, E. Nelson, A. Crook, H. Cai, J. Pinto, J. Wilson, D. Megenhardt, D. Albo, S. Dettling, N. Oien,; National Center for Atmospheric Research, Boulder, CO S. Fano, W. Bunting; National Weather Service Forecast Office, Ft. Worth, TX K. Johnston, S. Smith, M. Ba; National Weather Service, Silver Spring, MD T. Amis; NWS Central Weather Service Unit, Ft. Worth, TX 8 September 2005 Toulouse

To determine the role of the forecaster in nowcasting To demonstrate the added value of forecaster input into automated aviation-related thunderstorm nowcast products

MITL Demonstration NWS Forecaster NCAR Auto-nowcaster System National Weather Service Forecast Office Ft. Worth, Texas End User Aviation Community Public March 2005 – March 2007

Extrapolates, grows, dissipates and initiates storms. 1 hour forecast Verification Storm Initiation nowcasts Extrapolated nowcasts NCAR Auto-Nowcaster (ANC) System How does it do this?

Combined Likelihood Field for Storm Initiation Blue Regions - Little chance of storm development Green Regions - Moderate likelihood for thunderstorms Red Regions - Areas of forecast storm initiation 60 min Storm Initiation Likelihood Field Environmental conditions (Numerical Model) –Frontal forcing (θe gradients, vorticity, convergence) –CAPE/CIN Layered instability –CAPE (max between 900 and 700 mb) –Relative humidity (average from 875-to- 725 mb) Boundary-layer –Magnitude of convergence and vertical shear –Colliding boundaries –Vertical velocity along boundary –Boundary-relative steering flow –New storm development along boundary Clouds –Clear sky or cumulus clouds –Cloud growth observed with cloud top cooling rate

MITL Demonstration NWS Forecaster? NCAR Auto-nowcaster System National Weather Service Forecast Office Ft. Worth, Texas End User Aviation Community Public March 2005 – March 2007

FAA RCWF Domain June 12, 2003 A single piece of observational data alone is not sufficient to automatically detect surface convergence boundaries on all scales, from a cold front down to gust fronts and lake breezes. Forecasters can fill this role.

60 min 0 min Entering convergence features locations requires only a few minutes of a forecaster’s time…

However, not all boundaries are created equal….. Thunderstorm Initiation Likelihood Field So have added a new tool: Human-drawn polygon tool to increase or decrease forecast interest in an area Tool was used at the WFO to bump up interest in this area Thunderstorm Initiation Likelihood Field

Ft. Worth WFO 25 April 2005 Forecast: 1831 Z Radar Image: 1831 Z

Ft. Worth WFO 25 April 2005 Forecast: 1842 Z Radar Image: 1842 Z

Ft. Worth WFO 25 April 2005 Forecast: 1854 Z Radar Image: 1854 Z

Ft. Worth WFO 25 April 2005 Forecast: 1905 Z Radar Image: 1905 Z

Ft. Worth WFO 25 April 2005 Forecast: 1831 Z Radar Image: 1831 Z Forecast: 1831 Z Radar Image: 1929 Z

Ft. Worth WFO 25 April 2005 Forecast: 1842 Z Radar Image: 1842 Z Forecast: 1842 Z Radar Image: 1941 Z

Ft. Worth WFO 25 April 2005 Forecast: 1854 Z Radar Image: 1854 Z Forecast: 1854 Z Radar Image: 1952 Z

Ft. Worth WFO 25 April 2005 Forecast: 1905 Z Radar Image: 1905 Z Forecast: 1905 Z Radar Image: 2003 Z

Ft. Worth WFO 25 April 2005 Forecast: 1917 Z Radar Image: 1917 Z Forecast: 1917 Z Radar Image: 2020 Z

Ft. Worth WFO 25 April 2005 Forecast: 1929 Z Radar Image: 1934 Z Forecast: 1929 Z Radar Image: 2030 Z

Ft. Worth WFO 25 April 2005 Forecast: 1941 Z Radar Image: 1940 Z Forecast: 1941 Z Radar Image: 2042 Z

Ft. Worth WFO 25 April 2005 Forecast: 1952 Z Radar Image: 1951 Z Forecast: 1952 Z Radar Image: 2054 Z

Ft. Worth WFO 25 April 2005 Forecast: 2003 Z Radar Image: 2003 Z Forecast: 2003 Z Radar Image: 2107 Z

Ft. Worth WFO 25 April 2005 Forecast: 2020 Z Radar Image: 2020 Z Forecast: 2020 Z Radar Image: 2119 Z

Ft. Worth WFO 25 April 2005 Forecast: 2030 Z Radar Image: 2030 Z Forecast: 2030 Z Radar Image: 2129 Z

60 min Nowcast Field End End End

PoorReasonableGoodVery Good Forecasters’ Qualitative Assessment of Nowcasts For 43 events Forecast Quality: Good No initiation was forecasted on boundary 1 and none occurred. Boundary 3 is showing initiation just west of Young and Stephens Counties. Forecast Quality: Poor Slow response on Boundary 6. Cells beginning to initiate in Kaufman County but no initiation shown by Auto-nowcaster.

AREA WEATHER UPDATE NATIONAL WEATHER SERVICE FORT WORTH TX 310 PM CDT SUN APR > WARNING DECISION UPDATE FOR NORTH TEXAS MESOANALYSIS PROGRAMS SHOW J/KG CAPE ALONG AND JUST AHEAD OF DRYLINE. THUS...CU/DEVELOPING STORMS ALONG/E OF DRYLINE SHOULD CONTINUE TO INTENSIFY. STORM INITIATION TOOL ALSO SUGGESTS HIGH POSSIBILITY OF DEVELOPMENT FARTHER SW...OVER CORYELL/LAMPASAS COUNTY AREA. DEEP-LAYER SHEAR MORE THAN SUFFICIENT FOR ORGANIZED STORMS AND AT LEAST MID-LEVEL MESOS. AS STORMS EVOLVE INTO THE EVENING...A MORE LINEAR MODE IS EXPECTED.

Summary Initial results of the forecaster-computer mix are very encouraging Based on forecaster feedback modifications have been made to the ANC system in real-time and more will be added this winter Quantitative and qualitative evaluations of performance will be done at the end of the first year -includes working closely with B. Brown’s group to use their new object-oriented verification techniques Continue training forecasters on the ANC system and working closely with the CWSU to refine the nowcast products for the aviation community

Is there a role for the forecaster in nowcasting?