|  | JP2.1 | Impact of model error and precipitation observations in mesoscale 4DVAR data assimilation
Dusanka Zupanski, NOAA/NWS/NCEP and UCAR, Camp Springs, MD; and M. Zupanski, D. F. Parrish, G. J. DiMego, and E. Rogers |
| | JP2.2 | Cloud/hydrometeor initialization for the 20-km RUC using satellite and radar data 
Dongsoo Kim, NOAA/FSL, Boulder, CO; and S. G. Benjamin |
| | JP2.3 | A Real-time, Three-dimensional Cloud Analysis System at the Naval Research Laboratory
Qingyun Zhao, NRL, Monterey, CA; and J. Cook, K. Sashegyi, Q. Xu, and L. Wei |
| | JP2.4 | Expanding the Variational Methods in the LAPS Moisture Analysis
Daniel Birkenheuer, NOAA/FSL, Boulder, CO |
| | JP2.5 | Paper Number JP2.5 has been moved to Joint Session J2, Paper Number J2.6A
|
| | JP2.5a | The use of three-dimensional analyses of cloud attributes for diabatic initialization of mesoscale models (Formerly Paper J2.6)
Paul Schultz, NOAA/ERL/FSL, Boulder, CO; and S. Albers |
| | JP2.6 | NIDS-Based Intermittent Diabatic Assimilation and Application to Storm-Scale Numerical Weather Prediction
Donghai Wang, Hampton Univ. and NASA/LRC, Hampton, VA; and K. K. Droegemeier, D. Jahn, K. -. M. Xu, M. Xue, and J. Zhang |
| | JP2.7 | On the Added Value of High-Resolution Remotely Sensed Soil Moisture Data in a Mesoscale Model
Brian P. Reen, Penn State Univ., University Park, PA; and D. R. Stauffer, K. J. Davis, A. R. Desai, and R. J. Dobosy |
| | JP2.8 | The introduction of a local objective analysis module in the numerical forecast system at the Brazilian national weather service
Ligia R. Bernardet, Instituto Nacional de Meteorologia, Brasilia, Brazil; and R. B. Silveira, J. P. Edwards, J. M. D. Mol, and A. F. M. Falcão |
| | JP2.9 | An operational Local Data Integration System (LDIS) at NWS Melbourne
Peter F. Blottman, NOAA/NWS, Melbourne, FL; and S. M. Spratt, D. W. Sharp, A. J. Cristaldi, J. L. Case, and J. Manobianco |
| | JP2.10 | Assimilation of GOES Land Surface Data into Mesoscale Models
William M. Lapenta, NASA/MSFC NSSTC, Huntsville, AL; and R. Suggs, R. T. McNider, G. Jedlovec, and S. R. Dembek |
| | JP2.11 | Application of the Bratseth Scheme for High Latitude Intermittent Data Assimilation Using the PSU/NCAR MM5 Mesoscale Model
Xingang Fan, Univ. of Alaska, Fairbanks, AK; and J. S. Tilley |
| | JP2.12 | Revisiting the utility of Newtonian nudging for four dimensional data assimilation in high latitude mesoscale forecasts
Jeffrey S. Tilley, Univ. of Alaska, Fairbanks, AK; and X. Fan |
| | JP2.13 | Use of a Snow Prediction Scheme in a Mesoscale Realtime FDDA System
Simon Low-Nam, NCAR, Boulder, CO; and C. A. Davis, J. M. Cram, Y. Liu, R. S. Sheu, and J. Dudhia |
| | JP2.14 | Impact of Continuous Real-Time FDDA on Short-Term (0-12 hour) Forecasts
Yubao Liu, NCAR, Boulder, CO; and J. M. Cram, C. A. Davis, T. Warner, S. Low-Nam, and R. S. Sheu |
| | JP2.15 | New sea-surface temperature analysis implemented at NCEP
Jean Thiebaux, NOAA/NWS/NCEP, Camp Springs, MD; and B. Katz and W. Wang |
| | JP2.16 | Operational evaluation of the new sea-surface temperature analysis implemented at NCEP
James L. Partain, NOAA/NWS/NCEP, Camp Springs, MD |
| | JP2.17 | Refractivity Data Assimilation
Qin Xu, NOAA/NSSL, Norman, OK; and K. Nai, T. Rogers, T. Haack, and S. Burk |
| | JP2.18 | A MM5-based four-dimensional variational analysis system developed for distributed memory multiprocessor computers
Frank H. Ruggiero, Air Force Research Laboratory, Hanscom AFB, MA; and G. D. Modica, T. Nehrkorn, M. Cerniglia, J. G. Michalakes, and X. Zou |