Joint Poster Session 1J |
| | Assimilation of Radar Data in NWP Models (Joint with 32Radar and 11Mesoscale) |
| | JP1J.1 | Assimilation of water vapor extracted from radar refractivity observations into a cloud-scale numerical model
Juanzhen Sun, NCAR, Boulder, CO; and J. W. Wilson and R. D. Roberts |
| | JP1J.2 | Impact of Doppler radar and mesoscale surface observations on the storm-scale analysis and prediction of a mesoscale convective system
Michael C. Coniglio, NOAA/NSSL, Norman, OK; and D. C. Dowell, L. J. Wicker, and D. J. Stensrud |
| | JP1J.3 | The Impact of Different Data Fields on Storm-Scale Data Assimilation 
Guoqing Ge, CAPS/Univ. of Oklahoma, Norman, OK; and J. Gao and K. K. Droegemeier |
| | JP1J.4 | Impact of assimilation of Doppler radial velocity on a variational system and on its forecasts
Fathalla A. Rihan, Univ. of Salford, Manchester, United Kingdom; and C. G. Collier and S. Ballard |
| | JP1J.5 | Assimilation of Radar Data in the Mesoscale NWP-System of DWD
Klaus Stephan, German Weather Service, Offenbach, Germany; and S. Klink and C. Schraff |
| | JP1J.6 | Impact of Radar Rainfall Data Assimilation on Short-range Quantitative Precipitation Forecasts using Four-dimensional Variational Analysis Technique
Linus H.Y. Yeung, Hong Kong Observatory, Hong Kong, China; and P. K. Y. Chan and E. S. T. Lai |
| | JP1J.7 | Progress in Doppler radar data assimilation
Qin Xu, NOAA/NSSL, Norman, OK; and K. Nai, L. Wei, P. Zhang, L. Wang, H. Lu, and Q. Zhao |
| | JP1J.8 | Impact of using Doppler radar radial wind data in a winter cyclone period
Kirsti Salonen, Finnish Meteorological Institute, Helsinki, Finland; and H. Järvinen |
| | JP1J.9 | Assimilation of radar data in the Met Office mesoscale and convective scale forecast systems
Sue Ballard, Met Office, Reading, Berks., United Kingdom; and M. Dixon, S. Swarbrick, Z. Li, O. Stiller, F. A. Rihan, C. Collier, and H. Lean |
| | JP1J.10 | Towards a 1D+3DVar assimilation of radar reflectivities: Ongoing results
Olivier Caumont, CNRM, Toulouse, France; and É. Wattrelot, V. Ducrocq, F. Bouttier, C. Guéguen, and G. L'Hénaff |
| | JP1J.11 | Impact of radar data assimilation on storm predictions using a mesoscale model
Mei Xu, NCAR, Boulder, CO; and N. A. Crook, Y. Liu, and R. M. Rasmussen |
| | JP1J.12 | Data assimilation experiments with transformed ensemble Kalman filter
Bogumil Jakubiak, Warsaw Univ., Warsaw, Poland |
| | JP1J.13 | Assimilation of Doppler radar observations to improve the QPF of an IHOP squall line
Qingnong Xiao, NCAR, Boulder, CO; and J. Gu, J. Sun, Y. H. Kuo, and Y. R. Guo |
| | JP1J.14 | Differences Between Explicit and Approximated Radar Ray Paths Due to Vertical Gradient of Refractivity
Jidong Gao, CAPS/Univ. of Oklahoma, Norman, OK; and K. Brewster and M. Xue |
| | JP1J.15 | Physical Initialization to incorporate radar precipitation data into a Numerical Weather Prediction Model (Lokal Model)
Marco Milan, Univ. of Bonn, Bonn, Germany; and F. Amen, V. Venema, A. Battaglia, and C. Simmer |
| | JP1J.16 | Assimilation of simulated CASA radar data and prediction of varied convective storm types using an ensemble square-root Kalman Filter
Elaine S. Godfrey, Univ. of Oklahoma, Norman, OK; and M. Tong, M. Xue, and K. Droegemeier |
| | JP1J.17 | Assimilation of multiple-Doppler radar data with WRF-3DVAR system: Preliminary results in observing system simulation experiments
Soichiro Sugimoto, NCAR, Boulder, CO; and N. A. Crook, J. Sun, D. M. Barker, and Q. Xiao |
| | JP1J.18 | Radar data assimilation with The Rapid Update Cycle
Stephen S. Weygandt, NOAA/FSL, Boulder, CO; and D. Dévényi and S. G. Benjamin |
| | JP1J.19 | Using Radar Reflectivities to Inform a Stochastic Trigger Function for Convectivie Initiation in a Mesoscale Model
Yong Song, Univ. of Missouri, Columbia, MO; and C. K. Wikle and C. J. Anderson |
|  | JP1J.20 | Assimilation of radar and sounding observations with a WRF-based ensemble Kalman filter
Zhiyong Meng, Texas A&M University, College Station, TX; and F. Zhang and D. Hawblitzel |