Center for Analysis and Prediction of Storms (CAPS) University of Oklahoma

1. Center for Analysis and Prediction of Storms (CAPS) University of Oklahoma • CAPS is one of the first 11 NSF Science and Technology (S&T) Centers • CAPS is a pioneer and world leader in storm-scale NWP and radar data assimilation • CAPS is one of the four core organizations developing the new community WRF models. • CAPS was founded by Prof. Douglas Lilly, a member of US National Academy of Science • Prof. Kelvin Droegemeier, the second director of CAPS is a current member of U.S. President-appointed National Science Board, the governing body of NSF. • Prof. Ming Xue, the current director of CAPS, is a recognized world leader in the development and application of mesoscale and convective-scale modeling and data assimilation systems.

2. Qualifications of Dr. Ming Xue, one of the FPIs. • Prof. Xue is the main developer of the ARPS, one of the 3 major mesoscale modeling systems in the U.S., and is used worldwise. • The ARPS is in use at all four collaborating institutions right now. • Dr. Xue serves on 4 WRF Working Groups, and the WRF Research Application Board, and WRF Development Testbed Center (DTC) Advisory Board, and in the past the WRF Science Board. • Dr. Xue has nearly 70 publications in leading SCI journals. • Dr. Xue is the PI of the Analysis and Prediction Thrust of the current NSF Engineering Research Center (ERC) CASA, in which he is in charge of $1.5 million annual research budget. • Dr. Xue is in charge of much research grants with annual budget of over $2 million. • The University of Oklahoma has the best meteorology degree program in mesoscale meteorology in the United States.

3. Real Forecast Examples:May 8th, 2003 OKC tornado OKC tornado 2210-2238 UTC 30 km long path F4 Tornado #1 2200 UTC 2204-2210 UTC

4. ARPS 1-km-grid forecast using 10 min assimilation cycles over 1 hour Reflectivity at 1.45º elevation 30-min forecast 40-min forecast

5. May 8, 2003 OKC Tornado ARPS model prediction on 50-m Grid Forecast Radar observation Movie Forecast Low-level Reflectivity Observed Low-level Reflectivity (Click on the figure for movie – Place the movie in the same directory as the ppt file)

6. Research Plan of CAPS • Continue enhancing its storm-scale model, the ARPS and its advanced data assimilation systems, • Adapt the system to the Korean and East Asian environment. • Improve model microphysics (e.g., multi-moment schemes) • Evaluate and refine models for land surface and boundary layer processes for the eastern Asian and oceanic environments • Develop advanced data assimilation using the Ensemble Kalman Filter (EnKF) and Doppler radar data and apply them to the East Asian environment • Study predictability and error growth in multi-scale problems • Apply the modeling and data assimilation systems to the analysis and prediction of orographical precipitation, heavy rainfall events and typhoon cases.

7. Execution of plan by CAPS • Leverage on existing grants/projects for model and data assimilation system development • Seek additional support for model adaptation and testing for East Asian environments • Host visitors from collaborating institutions • Leverage on CAPS’s access to university and national supercomputing resources, including NSF peta-scale systems when they come on line.

8. Movie of Cloud Water Field. dx=25m 7.5x7.5km domain, 30 min. Movie of Cloud Water Field25 m, 7.5x7.5km domain, 30 minutes (Click on the figure for movie – Place the movie in the same directory as the ppt file) Click for Movie