Poster Session 5 |
| | Retrieval of Atmoshperic Profiles and Constituents: Part II |
| | P5.1 | Development of the PM-1 AMSR amd TMI land precipitation algorithms
Jeffrey R. McCollum, NOAA/NESDIS, Camp Springs, MD; and R. R. Ferraro |
| | P5.2 | TRMM Field Campaigns: A coherent and accessible database to improve understanding of the microphysics and dynamics of tropical precipitation over ocean and land
Edward J Zipser, Univ. of Utah, Salt Lake City, UT; and G. Heymsfield, C. Kummerow, J. Simpson, O. Thiele, S. Rutledge, M. A. F. Silva Dias, S. Yuter, R. A. Houze, and R. Kakar |
| | P5.3 | Investigating rain area delineation over land using data from TRMM
Dominic R. Kniveton, Univ. of Leicester, Leicester, Leicestershire, United Kingdom; and P. Bauer, T. J. Bellerby, C. Kidd, D. A. Kilham, and M. C. Todd |
| | P5.4 | Rainfall retrievals using data from the Tropical Rainfall Measuring Mission (TRMM)
Chris Kidd, Univ. of Birmingham, Birmingham, United Kingdom |
| | P5.5 | An Improved Level-3 Oceanic Rainfall Retrieval Algorithm for TRMM
Jun Huang, Texas A&M Univ., College Station, TX; and C. T. Bellows, D. H. Lee, and T. T. Wilheit |
| | P5.6 | A precipitation retrieval using TMI during the Baui Period of 1988
Kazumasa Aonashi, MRI, Tsukuba-shi, Ibaraki-ken, Japan; and G. Liu |
| | P5.7 | Estimation of precipitation over tropical Africa using TRMM Rain Products and Meteosat Data
Karim Ramage, LMD/CNRS, Palaiseau, France; and I. Jobard, T. Lebel, and M. Desbois |
| | P5.8 | Cloud physical and microwave radiative properties of tropical stratiform precipitation inferred from multichannel microwave radiances
Grant W. Petty, Purdue Univ., West Lafayette, IN |
| | P5.9 | Precipitation characteristics of mesoscale convective systems in the tropical western Pacific inferred from satellite, radar reflectivity and a mesoscale numerical model
Leila M. V. Carvalho, Univ. of São Paulo, Sao Paulo, SP, Brazil; and C. Jones and T. M. Rickenbach |
| | P5.10 | Using TRMM and SSM/I Measurements to Critique Microphysical Features of Mesoscale Model Simulation of Hurricane Bonnie (1998)
Eric A. Smith, NASA/GHCC and Univ. of Alabama, Huntsville, AL; and S. Fiorino, G. Panegrossi, and G. J. Tripoli |
| | P5.11 | Determination of ice water path and mass median particle size using multichannel microwave measurements
Guosheng Liu, Florida State Univ., Tallahassee, FL; and J. A. Curry |
| | P5.12 | Retrieval of cloud column susceptibilities of water clouds using satellite data
Qingyuan Han, Univ. of Alabama, Huntsville, AL; and W. B. Rossow, J. Chou, and R. M. Welch |
| | P5.13 | The Development of Cloud Retrieval Algorithms Applied to GOES Digital Data
Randall J. Alliss, Litton-TASC, Chantilly, VA; and M. E. Loftus, D. Apling, and J. Lefever |
| | P5.14 | An improved cloud detection algorithm for application to SST retrieval
Gary B. Gustafson, AER, Inc., Cambridge, MA; and W. O. Gallery |
| | P5.15 | Retrieval of Cirrus Radiative and Spatial Properties Using Coincident AVHRR and HIRS Data
Robert P. d'Entremont, AER, Inc., Cambridge, MA; and K. Cady-Pereira, G. B. Gustafson, and D. P. Wylie |
| | P5.16 | Retrieval of Geophysical Parameters from MODIS Measurements: Extension of a Two-Step Algorithm
Xia Lin Ma, Univ. of Wisconsin/CIMSS, Madison, WI and Univ. of California, Santa Barbara, CA; and Z. Wan, W. P. Menzel, C. C. Moeller, L. E. Gumiley, and Y. Zhang |
| | P5.17 | Aerosol Optical Depth Retrievals over Land using the GOES-8/Imager Visible Channel
Kenneth R. Knapp, CIRA/Colorado State Univ., Fort Collins, CO; and T. H. Vonder Haar |
| | P5.18 | Sensitivity analysis of cirrus height, temperature, and pressure retrievals using remotely sensed thermal infrared observations
John B. Collins, AER, Inc., Cambridge, MA; and R. P. d'Entremont and G. B. Gustafson |
| | P5.19 | Modeling and analysis of MLS 203 and 186.5GHz radiances at 14-18km tangent heights
Dong L Wu, JPL/California Inst. of Technology, Pasadena, CA |
|  | P5.20 | Diurnal variation of cloud derived from GOES-9 multi-IR-channel data
Toshiro Inoue, MRI/JMA, Tsukuba, Ibaraki, Japan |