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Slide 01: TRMM Precipitation Radar Comparisons with WSR-88D Radar at Melbourne, Fl
![Slide 02: TRMM Precipitation Radar Comparisons with
WSR-88D Radar at Melbourne, Fl (continued) Slide 02: TRMM Precipitation Radar Comparisons with
WSR-88D Radar at Melbourne, Fl (continued)](200601_02_sm.jpg)
Slide 02: TRMM Precipitation Radar Comparisons with WSR-88D Radar at Melbourne, Fl (continued)
![Slide 03: NASIRF: The NASA Air-Sea Interaction Research Facility - Joint Heat Flux Experiments with Western Connecticut State University: Jan. 2006 Slide 03: NASIRF: The NASA Air-Sea Interaction Research Facility - Joint Heat Flux Experiments with Western Connecticut State University: Jan. 2006](200601_03_sm.jpg)
Slide 03: NASIRF: The NASA Air-Sea Interaction Research Facility - Joint Heat Flux Experiments with Western Connecticut State University: Jan. 2006
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Slide 04: Research and Development: A Surface Contact, Lightweight, Wave-Following, Multi-Sensor Float
![Slide 05: Subglacial Lakes from ICESat and MOA, on the flanks of the Gamburtsev Subglacial Mountains, East Antarctica Slide 05: Subglacial Lakes from ICESat and MOA, on the flanks of the Gamburtsev Subglacial Mountains, East Antarctica](200601_05_sm.jpg)
Slide 05: Subglacial Lakes from ICESat and MOA, on the flanks of the Gamburtsev Subglacial Mountains, East Antarctica
![Slide 06: Subglacial Lakes from ICESat and MOA, Queen Maud Land, East Antarctica Slide 06: Subglacial Lakes from ICESat and MOA, Queen Maud Land, East Antarctica](200601_06_sm.jpg)
Slide 06: Subglacial Lakes from ICESat and MOA, Queen Maud Land, East Antarctica
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Slide 07: Predicting lidar measured forest vertical structure from multi-angle spectral data
![Slide 08: Predicting lidar measured forest vertical structure from multi-angle spectral data (continued) Slide 08: Predicting lidar measured forest vertical structure from multi-angle spectral data (continued)](200601_08_sm.jpg)
Slide 08: Predicting lidar measured forest vertical structure from multi-angle spectral data (continued)
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