| Poster Title | Presenter |
| An examination of snow albedo estimates from MODIS and their impact on snow water equivalent reconstruction, Water Resources Research (PDF) | Edward Bair |
| Landsat 9 and Landsat Collection 2: relevance for the hydrological and cryospheric sciences (poster available on request) | Chris Crawford |
| Combining regional climate models and satellite measurements improves SWE accuracy and spatial resolution (PDF) | Michael Durand |
| U.S. Geological Survey National Hydrologic Model Alaska domain extension (PDF) | John Hammond |
| Snow Remote Sensing with Ultra-Wideband Microwave Radiometry (PDF) | Joel Johnson |
| The Potential for Full-Waveform Lidar in SnowEx Studies (PDF) | Nayan Kangakoon |
| Snow-vegetation interactions at the individual tree scale with terrestrial laser scanning, Grand Mesa, Colorado (PDF) | Ahmad Malekshah |
| Spatially extensive ground-penetrating radar snow depth observations during NASA’s 2017 SnowEx Campaign: Comparison with in situ, airborne, and satellite observations (PDF) | Daniel McGrath |
| Dielectric Constant and Thickness Measurement of Dry Snowpack and Lake Icepack using Correlation Radiometry (PDF) | Mohammad Mousavi |
|
Spatially-extrapolating subsampled airborne lidar: How much lidar is enough? (PDF) |
Justin Pflug |
|
Stereo2SWE On-demand, high-resolution time series of snow depth and SWE from sub-meter stereo satellite imagery (PDF) |
David Shean |
| The Influence of Snow Depth Observation Timing and Uncertainty on Data Assimilation Improvements to SWE (PDF) | Eric Smyth |
| Improving the Spatial Resolution of Snow Albedo Measurements in Mountainous Regions Using a Dual-sensor Unmanned Aerial Vehicle (UAV) (PDF) | Eric Sproles |
| New York State Mesonet Snow Network (PDF) | June Wang |
|
Within-stand Boundary Effects of SWE Distribution in Forested Areas (PDF) |
Ryan Webb |
| Using C- and L-band radar observations to retrieve soil rms height and moisture to improve SWE retrieval (PDF) | Jiyue Zhu |