HelioWebIdaho State University, Boise
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I[Idaho State University, Boise]
PI["Parent Institutions (1)"]
CI["Child Institutions (0)"]
AW["Affiliated Works (35)"]
CA["Linked Collaborating Authors (0)"]
I== skos:broader ==>PI
CI== skos:broader ==>I
AW== affil ==>I
AW== author ==>CA
click PI "#parent-institutions"
click CI "#child-institutions"
click AW "#affiliated-works"
click CA "#collaborating-authors"
Parent Institutions [?]
Child Institutions [?]
Affiliated Works
sorted by decreasing year, and then by display-name
- Detection and Characterization of Rangeland Vegetation Using Airborne Laser Swath Mapping
- Mapping Geology and Structure in Hyper-Rugged Terrain Using ASTER Remote Sensing Data: A Case Study From Northern Pakistan
- Surface Fractal Characterization of Topography and Landcover Using Airborne Laser Swath Mapping
- Remote Characterization of Gravel Bars in Big Creek, Idaho
- Use of a Slope-Based Surface Matching Technique to Detect Landslide Movement in LiDAR Data
- Burn Severity Measurement Using LiDAR Data
- Development and Evaluation of Dimensionless Snowmelt Depletion Curves Using MODIS- Derived SCA
- Ground-return Identification of Airborne LiDAR Data in a Forested Area Using Gaussian-fitting Models
- Post-fire Wind Erosion in a Semiarid Shrub Steppe
- Biomass Estimation of Douglas-fir Stands Using Airborne LiDAR Data
- Dimensionless snowmelt depletion curves using MODIS-derived SCA for improved hydrologic modeling
- Relationships of aeolian surface change with Lidar-derived landscape surface roughness
- Using 3D visual tools with LiDAR for environmental outreach
- Characterizing bare-earth elevations from airborne LiDAR data in a shrub-dominated mountain environment (Invited)
- Estimating Basin Snow Volume Using Aerial LiDAR and Binary Regression Trees (Invited)
- Estimating SWE distribution with a combination of ground-based radar measurements, modeling and remote sensing (Invited)
- Estimating semiarid vegetation height from GLAS Data
- Experimental Manipulation of Soil Moisture Regime Impacts Soil Microbial Community Abundance, Diversity, and Function in a Semi-Arid Sagebrush Steppe
- Fine-scale characterization of juniper expansion via lidar data and fusion with Landsat 5 TM
- Fire, microclimate, wind- and water-erosion create positive feedback for microsite soil resources: meta-analysis in sagebrush steppe
- Landslide Monitoring with Multi-Temporal Airborne LiDAR
- Leveraging LIDAR-derived Point Clouds for Topographic Characterization
- Modeling low-height vegetation with airborne LiDAR (Invited)
- Multi-temporal LiDAR change detection for terrain analysis using slope-based automatic co-registration (Invited)
- Discovering new methods of data fusion, visualization, and analysis in 3D immersive environments for hyperspectral and laser altimetry data
- Hyperspectral imaging from a light-weight (up to 75 kg) unmanned aerial vehicle platform
- Integration of terrestrial and airborne laser altimetry for fault scarp profiling
- Intensity normalization and automatic gain control correction of airborne LiDAR data for classifying a rangeland ecosystem
- Lidar-derived carbon estimates in encroaching juniper woodlands
- Vegetation cover and volume estimates in semi-arid rangelands using LiDAR and hyperspectral data
- A Bayesian geostatistical estimation of biomass in semi-arid rangelands by combining airborne and terrestrial laser scanning data
- Assessing riparian shade for the Lemhi River, Idaho using LiDAR: A point cloud analysis
- Comparing the above-ground component biomass estimates of western junipers using airborne and full-waveform terrestrial laser scanning data
- Sagebrush Biomass Estimation Using Terrestrial Laser Scanning
- Toward Improved Hyperspectral Analysis in Semiarid Systems