|  | JP7.1 | Atmospheric instability and airmass parameters derived from MSG data using temperature and humidity information from IASI on Metop-A
Marianne Koenig, EUMETSAT, Darmstadt, , Germany; and K. D. Klaes |
| | JP7.2 | Ongoing enhancements to satellite nowcasting of 0-1 hour convective initiation
John R. Mecikalski, University of Alabama, Huntsville, AL; and W. M. MacKenzie, J. R. Walker, and C. Siewert |
| | JP7.3 | A new product to help forecast convective initiation in the 1-6 hour timeframe
John R. Walker, University of Alabama, Huntsville, AL; and J. R. Mecikalski and W. M. MacKenzie |
| | JP7.4 | Optimizing the impact of GOES sounder products in very—short—range forecasts—recent results and future plans
Ralph A. Petersen, CIMSS/University of Wisconsin, Madison, WI; and R. M. Aune |
| | JP7.5 | Development of objective overshooting top and anvil temperature couplet detection algorithms for GOES-R ABI
Kristopher M. Bedka, CIMSS/Univ. of Wisconsin, Madison, WI; and J. C. Brunner and W. F. Feltz |
| | JP7.6 | Cloud model based interpretation of satellite observed IR features of enhanced-V and cold ring on top of severe thunderstorms
Pao K. Wang, Univ. of Wisconsin, Madison, WI; and M. Setvak, R. Rabin, and A. S. Bachmeier |
| | JP7.7 | Using geostationary imagers for convective and lightning initiation nowcasting
Justin Sieglaff, CIMSS/Univ. of Wisconsin, Madison, WI; and K. M. Bedka, W. F. Feltz, and M. J. Pavolonis |
| | JP7.8 | An Evaluation of a Convection Diagnosis Algorithm over the Gulf of Mexico Using NASA TRMM Observations 
Michael Donovan, MIT, Lexington, MA; and E. R. Williams, C. Kessinger, N. Rehak, H. Cai, D. L. Megenhardt, R. L. Bankert, and J. D. Hawkins |
| | JP7.9 | WF_ABBA Version 6.5: An overview of the improvements and trend analyses of fires from 1995 to present over the western Hemisphere
Jason C. Brunner, CIMSS/Univ. of Wisconsin, Madison, WI; and C. C. Schmidt, E. M. Prins, J. M. Feltz, J. P. Hoffman, and S. S. Lindstrom |
| | JP7.10 | Recent WF_ABBA fire detection and characterization algorithm validation efforts at CIMSS
Jay P. Hoffman, CIMSS/Univ. of Wisconsin, Madison, WI; and C. C. Schmidt, E. M. Prins, S. S. Lindstrom, and J. C. Brunner |
| | JP7.11 | The Tropical Cyclone Structure (TCS-08) near real-time and science studies satellite product suite
Jeffrey D. Hawkins, NRL, Monterey, CA; and F. J. Turk, K. Richardson, R. Bankert, C. Mitrescu, C. Velden, D. C. Herndon, A. Wimmers, T. L. Olander, S. D. Miller, and J. E. Kent |
| | JP7.13 | Tropical cyclone applications of NPOESS and GOES-R
Mark DeMaria, NOAA/NESDIS, Fort Collins, CO |
| | JP7.12 | Propagating patterns in 6.7 µm imagery in re-intensifying tropical-to extratropical cyclone transitions
John A. Knaff, NOAA/NESDIS, Fort Collins, CO |
| | JP7.14 | Unusual droughts around the globe in the new millennium detected and monitored from NOAA operational satellites
Felix Kogan, NOAA/NESDIS, Camp Springs, MD |
| | JP7.15 | The NOAA/NESDIS OMI volcanic SO2 cloud and Aerosol Index online, near-real-time distribution system
Gilberto A. Vicente, NOAA, Camp Springs, MD; and G. Serafino, A. Krueger, S. Carn, K. Yang, N. Krotkov, M. Guffanti, and P. Levell |
| | JP7.16 | Development and application of an automated atmospheric river detection procedure using passive microwave satellite data
Gary A. Wick, NOAA/ESRL/PSD, Boulder, CO |
| | JP7.17 | Nowcasting aircraft turbulence from tropopause folds operationally for GOES-R
Anthony Wimmers, CIMSS/Univ. of Wisconsin, Madison, WI; and W. Feltz |