USGS EROS Archive - Advanced Very High Resolution Radiometer (AVHRR) - Sensor Characteristics

Back to Advanced Very High Resolution Radiometer (AVHRR) 

AVHRR data are acquired in three formats:

• High Resolution Picture Transmission (HRPT)
• Local Area Coverage (LAC)
• Global Area Coverage (GAC)

HRPT data are full resolution image data transmitted to a ground station as they are collected. The average instantaneous field-of-view of 1.4 milliradians yields a HRPT ground resolution of approximately 1.1 km at the satellite nadir from the nominal orbit altitude of 833 km (517 mi).

LAC are full resolution data that are recorded on an on board tape for subsequent transmission during a station overpass. The average instantaneous field-of-view of 1.4 milliradians yields a LAC ground resolution of approximately 1.1 km at the satellite nadir from the nominal orbit altitude of 833 km (517 mi).

GAC data are derived from a sample averaging of the full resolution AVHRR data. Four out of every five samples along the scan line are used to compute one average value and the data from only every third scan line are processed, yielding 1.1 km by 4 km resolution at the subpoint.

Extent of Coverage

The AVHRR sensor provides global (pole to pole) on board collection of data from all spectral channels. Each pass of the satellite provides a 2399 km (1491 mi) wide swath. The satellite orbits the Earth 14 times each day from 833 km (517 mi) above its surface.

Spatial Resolution

The average instantaneous field-of-view (IFOV) of 1.4 milliradians yields a LAC/HRPT ground resolution of approximately 1.1 km at the satellite nadir from the nominal orbit altitude of 833 km (517 mi). The GAC data are derived from an on board sample averaging of the full resolution AVHRR data yielding 1.1-km by 4-km resolution at nadir.

Temporal Coverage

An ascending node would imply a northbound Equatorial crossing while a descending node would imply a southbound Equatorial crossing.

NOAA-B, launched May 29, 1980, failed to achieve orbit. NOAA-13 launched August 9, 1993, failed due to an electrical short circuit in the solar array.

Spectral Range

Applications and Related Data Sets

AVHRR data provide opportunities for studying and monitoring vegetation conditions in ecosystems including forests, tundra, and grasslands. Applications include agricultural assessment, land cover mapping, producing image maps of large areas such as countries or continents and tracking regional and continental snow cover. AVHRR data are also used to retrieve various geophysical parameters such as sea surface temperatures and energy budget data.

Reference

Kidwell, Katherine B., comp. and ed., 1995, NOAA Polar Orbiter Data (TIROS-N, NOAA-6, NOAA-7, NOAA-8, NOAA-9, NOAA-10, NOAA-11, NOAA-12, and NOAA-14, NOAA-15, NOAA-16, NOAA-17, NOAA-18, NOAA-19) Users Guide : Washington, D.C., NOAA/NESDIS.

Additional Information

• Advanced Very High Resolution Radiometer (AVHRR) 

Access Data

EarthExplorer can be used to search, preview, and download Advanced Very High Resolution Radiometer (AVHRR). The collection are located under the Advanced Very High Resolution Radiometer (AVHRR) category.