In this photo, a group of 20 scientists pose for the camera. The group is dressed in winter gear and stands in front of Berthoud Pass, Colorado. The pass and the ground are covered in snow. Berthoud Pass has a few patches of dark green trees.
Matt A Burgess
Matt Burgess is a Geographer at the National Unmanned Aircraft Systems Project Office in the Geosciences and Environmental Change Science Center.
Science and Products
National Uncrewed Systems Office
Uncrewed Aircraft Systems (UAS) natural color, multispectral, lidar, and hyperspectral remote sensing data products collected at dryland sites 40 km south of Moab, Utah in May 2023
Lidar Point Clouds (LPCs), Digital Elevation Models (DEMs), and Snow Depth Raster Maps Derived from Lidar Data Collected on Small, Uncrewed Aircraft Systems in the Upper Colorado River Basin, Colorado, 2020-22
Colorado River at Windy Gap near Granby, CO - 2021/07/27 Water Surface Velocity Map Using Particle Image Velocimetry
In this photo, a group of 20 scientists pose for the camera. The group is dressed in winter gear and stands in front of Berthoud Pass, Colorado. The pass and the ground are covered in snow. Berthoud Pass has a few patches of dark green trees.
The Snow to Flow team is comprised of a “village” of remarkable scientists and engineers from the USGS Colorado Water Science Center, USGS National Uncrewed Systems Office (NUSO), and the University of Southern California - Viterbi School of Engineering. The team is pictured here at the Berthoud Pass, CO field site on April 18, 2022.
The Snow to Flow team is comprised of a “village” of remarkable scientists and engineers from the USGS Colorado Water Science Center, USGS National Uncrewed Systems Office (NUSO), and the University of Southern California - Viterbi School of Engineering. The team is pictured here at the Berthoud Pass, CO field site on April 18, 2022.
Positional accuracy assessment of lidar point cloud from NAIP/3DEP pilot project
Science and Products
- Science
National Uncrewed Systems Office
The U.S. Geological Survey (USGS) National Uncrewed Systems Office (NUSO) leads the research activities needed to make Uncrewed Aircraft Systems (UAS) data collection an efficient, safe, and cost-effective remote sensing tool for Department of the Interior (DOI) and USGS scientists. DOI manages over 20 percent of the Nation’s public lands and is responsible for migratory bird and wildlife... - Data
Uncrewed Aircraft Systems (UAS) natural color, multispectral, lidar, and hyperspectral remote sensing data products collected at dryland sites 40 km south of Moab, Utah in May 2023
In support of U.S. Geological Survey (USGS) Southwest Biological Science Center researchers, and in coordination with the Bureau of Land Management (BLM) and National Ecological Observatory Network (NEON), the USGS National Uncrewed Systems Office (NUSO) conducted uncrewed aircraft systems (UAS) remote sensing flights over two BLM Assessment, Inventory, and Monitoring (AIM) plots at the NEON MoabLidar Point Clouds (LPCs), Digital Elevation Models (DEMs), and Snow Depth Raster Maps Derived from Lidar Data Collected on Small, Uncrewed Aircraft Systems in the Upper Colorado River Basin, Colorado, 2020-22
This data release consists of three child items distinguishing the following types of data: light detection and ranging (lidar) point clouds (LPCs), digital elevation models (DEMs), and snow depth raster maps. These three data types are all derived from lidar data collected on small, uncrewed aircraft systems (sUAS) at study areas in the Upper Colorado River Basin, Colorado, from 2020 to 2022. TheColorado River at Windy Gap near Granby, CO - 2021/07/27 Water Surface Velocity Map Using Particle Image Velocimetry
The dataset consists of a shapefile of measurements of surface velocity magnitude and direction at the Colorado River at Windy Gap near Granby, CO, on July 27, 2021. The dataset contains approximately 1 km of river length. The surface velocity measurements were made by applying Large-Scale Particle Image Velocimetry (LSPIV) techniques, using overlapping videos collected by small Unmanned Aircraft - Multimedia
Group photo 2 by Matt Burgess NUSO_Cropped.jpg
In this photo, a group of 20 scientists pose for the camera. The group is dressed in winter gear and stands in front of Berthoud Pass, Colorado. The pass and the ground are covered in snow. Berthoud Pass has a few patches of dark green trees.
In this photo, a group of 20 scientists pose for the camera. The group is dressed in winter gear and stands in front of Berthoud Pass, Colorado. The pass and the ground are covered in snow. Berthoud Pass has a few patches of dark green trees.
Group photo 2 by Matt Burgess NUSO.JPGThe Snow to Flow team is comprised of a “village” of remarkable scientists and engineers from the USGS Colorado Water Science Center, USGS National Uncrewed Systems Office (NUSO), and the University of Southern California - Viterbi School of Engineering. The team is pictured here at the Berthoud Pass, CO field site on April 18, 2022.
The Snow to Flow team is comprised of a “village” of remarkable scientists and engineers from the USGS Colorado Water Science Center, USGS National Uncrewed Systems Office (NUSO), and the University of Southern California - Viterbi School of Engineering. The team is pictured here at the Berthoud Pass, CO field site on April 18, 2022.
- Publications
Positional accuracy assessment of lidar point cloud from NAIP/3DEP pilot project
The Leica Geosystems CountryMapper hybrid system has the potential to collect data that satisfy the U.S. Geological Survey (USGS) National Geospatial Program (NGP) and 3D Elevation Program (3DEP) and the U.S. Department of Agriculture (USDA) National Agriculture Imagery Program (NAIP) requirements in a single collection. This research will help 3DEP determine if this sensor has the potential to meAuthorsMinsu Kim, Seonkyung Park, Jeffrey Irwin, Collin McCormick, Jeffrey J. Danielson, Gregory L. Stensaas, Aparajithan Sampath, Mark A. Bauer, Matthew Alexander Burgess - News