NASA Shuttle Radar Topography Mission United States 1 arc second elevation data from the SRTMUS1 product over Dale Hollow Lake on the Kentucky and Tennessee border in the United States in 2000.
View full-size imageThe Land Processes Distributed Active Archive Center (LP DAAC) is responsible for the archive and distribution of the NASA Making Earth System Data Records for Use in Research Environments (MEaSUREs) version SRTM, which includes the United States 1 arc second (~30 meter) product.
NASA Shuttle Radar Topography Mission (SRTM) datasets result from a collaborative effort by the National Aeronautics and Space Administration (NASA) and the National Geospatial-Intelligence Agency (NGA - previously known as the National Imagery and Mapping Agency, or NIMA), as well as the participation of the German and Italian space agencies. The purpose of SRTM was to generate a near-global digital elevation model (DEM) of the Earth using radar interferometry. SRTM was a primary component of the payload on the Space Shuttle Endeavour during its STS-99 mission. Endeavour launched February 11, 2000 and flew for 11 days.
Each SRTMUS1 data tile contains a mosaic and blending of elevations generated by averaging all "data takes" that fall within that tile. These elevation files use the extension “.HGT”, meaning height (such as N37W105.SRTMUS1.HGT). The primary goal of creating the Version 3 data was to eliminate voids that were present in earlier versions of SRTM data. In areas with limited data, existing topographical data were used to supplement the SRTM data to fill the voids. The source of each elevation pixel is identified in the corresponding SRTMUS1N product (such as N37W105.SRTMUS1N.NUM).
SRTM collected data in swaths, which extend from ~30 degrees off-nadir to ~58 degrees off-nadir from an altitude of 233 kilometers (km). These swaths are ~225 km wide, and consisted of all land between 60° N and 56° S latitude. This accounts for about 80% of Earth’s total landmass.
| Characteristic | Description |
|---|---|
| Collection | MEaSUREs SRTM |
| DOI | 10.5067/MEaSUREs/SRTM/SRTMUS1.003 |
| File Size | ~9 MB |
| Temporal Resolution | Multi-Day |
| Temporal Extent | 2000-02-11 to 2000-02-21 |
| Spatial Extent | United States |
| Coordinate System | Geographic Latitude and Longitude |
| Datum | WGS84/EGM96 |
| File Format | HGT |
| Geographic Dimensions | 1 degree lat x 1 degree lon |
| Characteristic | Description |
|---|---|
| Number of Science Dataset (SDS) Layers | 1 |
| Columns/Rows | 3601 x 3601 |
| Pixel Size | ~30 m |
| SDS Name | Description | Units | Data Type | Fill Value | No Data Value | Valid Range | Scale Factor |
|---|---|---|---|---|---|---|---|
| DEM | Elevation | Meters | 16-bit signed integer | -32768 | N/A | -32767 to 32767 | N/A |
Scientists used a method called Kinematic Global Positioning System Geodetic field surveying to validate SRTM data. This method facilitates the very rapid long lines of precise positions from a moving vehicle. Several entities conducted the actual survey work, including private contractors, NGA geodesists, and NASA Jet Propulsion Laboratory (JPL) scientists. In all, about 70,000 kilometers of survey lines were collected in support of this mission. The data were used to model long-wavelength error sources.
In addition, NASA’s JPL deployed corner reflectors during the mission. These are highly reflective structures that appear as a bright point in the radar image. These reflectors were deployed with precisely measured coordinates and served as control points in the SRTM data.
Known issues in the NASA SRTM are described in the following publication: Rodriguez, E., C. S. Morris, and J. E. Belz (2006), A global assessment of the SRTM performance, Photogramm. Eng. Remote Sens., 72, 249–260. https://doi.org/10.14358/PERS.72.3.249