Advanced Very High Resolution Radiometer

(Additional information on AVHRR at edcwww.cr.usgs.gov)

Table of Contents

Background
Extent of Coverage
Acquisition
Processing Steps
Data Characteristics
   Spatial Resolution
   Temporal Coverage
   Spectral Range
Data Organization
Data Availability
   Procedures for Obtaining Data
   Products and Services
Applications and Related Data Sets
References

Background

The Advanced Very High Resolution Radiometer (AVHRR) is a broad-band, four or five channel (depending on the model) scanner, sensing in the visible, near-infrared, and thermal infrared portions of the electromagnetic spectrum. This sensor is carried on NOAA's Polar Orbiting Environmental Satellites ( POES), beginning with TIROS-N in 1978.

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. LAC are also full resolution data, but recorded with an on-board tape recorder for subsequent transmission during a station overpass. GAC data provide daily subsampled global coverage recorded on the tape recorders and then transmitted to a ground station.

Extent of Coverage

The AVHRR sensor provides for 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.

Acquisition

AVHRR data are both broadcast continually in direct readout mode and recorded on board the satellite for later playback. The EROS Data Center ( EDC) AVHRR Data Acquisition and Processing System (ADAPS), which began operation in May 1987, receives approximately six daytime passes per day of HRPT data over the conterminous United States. Night acquisitions are acquired upon request only. As of March 1990, all data received at EDC are permanently archived. Prior to March 1990, approximately 40 percent of the data received were archived.

The EROS Data Center AVHRR Data Acquisition and Processing System was expanded on June 15, 1990, to acquire LAC and GAC data via a communications satellite for areas recorded throughout the entire globe. Priority is given to LAC acquisitions of the North American continent not covered by EDC's direct reception capabilities and other project specific areas.

NOAA/ NESDIS receives both world-wide recorded and direct readout AVHRR data from the Wallops Island, Virginia, and Gilmore Creek, Alaska, stations. Those stations then redirect the data via a satellite relay to NOAA/NESDIS in Suitland, Maryland, where the data are processed, archived, and reproduced.

Processing Steps

EDC's ADAPS flow for acquisitions and archiving begins with either direct HRPT reception or re-broadcast DOMSAT LAC/GAC reception. Initial ingest of the data reformatting includes archiving, and creation of browse quick looks, 9-track tapes, and 3480 cartridge tapes.

The NOAA AVHRR processing flow begins with sensor data receipt by the Command and Data Acquisition (CDA) stations (Wallops Island, Virginia and Gilmore Creek, Alaska) where the data are re-broadcast via communications satellites, to NOAA/NESDIS in Suitland, Maryland. The ephemeris data are accessed through the Gridded Earth Location and Determination System (GELDS) software on NAS computers for Level 1b production.

The EROS ADAPS systematic georegistration process references AVHRR data to the Earth's surface. Through modeling the position and attitude of the TIROS satellite platforms and the scanning geometry of the AVHRR sensor, geometric distortions can be minimized. The position of the satellite is determined by an orbital model updated by ephemeris data received daily from NAVY Space Surveillance. The AVHRR sensor model characterizes the non-linear scanning of the sensor mirror. A refinement to the sensor model accounts for the displacement in longitude due to the rotation of the Earth under the satellite. All modeling is referenced to the time of acquisition. As the satellite clock time drifts, a delta time adjustment is applied. Collectively, these models comprise the geometric correction model in ADAPS. The positional accuracy of a systematic georegistration is approximately 5000 m, RMSE.

Precise georegistration positional accuracy of 1000 m RMSE, requires correlation of image features with accurately registered cartographic or image-based maps. A common practice is to use cartographic sources such as Digital Chart of the World (DCW) or hydrography data to extract easily identifiable features such as coastlines, water bodies, and rivers and to correlate them with the matching raw image locations using various techniques. The correlation process determines specific adjustments to be applied to the time, roll, and yaw parameters of the orbital model. The EDC ADAPS uses a variety of techniques depending upon the geographic location of the imagery and the volume of data to be processed.

Data Characteristics

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. 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 nadir.

Temporal Coverage

Satellite Launch 
Ascending
Descending   Service

Number     Date      Node      Node           Dates
--------   ------    ----      ----     ------------------
TIROS-N    10/13/78  1500      0300     10/19/78 - 01/30/80
NOAA-6     06/27/79  1930      0730     06/27/79 - 11/16/86
NOAA-7     06/23/81  1430      0230     08/24/81 - 06/07/86
NOAA-8     03/28/83  1930      0730     05/03/83 - 10/31/85
NOAA-9     12/12/84  1420      0220     02/25/85 - Present
NOAA-10    09/17/86  1930      0730     11/17/86 - Present
NOAA-11    09/24/88  1340      0140     11/08/88 - 09/13/94
NOAA-12    05/14/91  1930      0730     05/14/91 - Present
NOAA-14    12/30/94  1340      0140     12/30/94 - Present

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

Band # Satellites:        Satellites:            IFOV
       NOAA-6,8,10        NOAA-7,9,11,12,14

 1     0.58  - 0.68        0.58  - 0.68          1.39
 2     0.725 - 1.10        0.725 - 1.10          1.41
 3     3.55  - 3.93        3.55  - 3.93          1.51
 4    10.50  - 11.50      10.3  - 11.3           1.41
 5    band 4 repeated     11.5  - 12.5           1.30
      (micrometers)       (micrometers)    (milliradians)

Data Organization

The record structure of LAC/HRPT Level 1b data sets for each file follows the pattern:

Record 1  TBM (Terabit memory)Header record (122 bytes)
Record 2  Data Set Header record (7400 bytes)
Record 3  Dummy (7400 bytes)
Records 4-n  Data records (7400 bytes)

The record structure of GAC data sets for each file follows the pattern:

Record  1 .... TBM (Terabit memory) Header record (122 bytes)
Record  2 .... Data Set Header record
Record  3-n .. Data records

Data Availability

Procedures for Obtaining Data

To place orders and to obtain additional information regarding technical details, ancillary products, and pricing schedules, contact: Customer Services, Eros Data Center OR NOAA/SAA User Assistance

The GLIS INVENTORY and ORDER screens may also be used for further information on ordering AVHRR data. NOAA/SAA may also be contacted through the GLIS Remote Link.

Products and Services

The EROS Data Center provides standard AVHRR digital Level 1b and georegistered products on 9-track tapes 6250 bpi, 3480 cartridge, 8 mm cassette, and via network access.

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.

Additional data sets include the Alaska twice-monthly AVHRR and the U.S. Conterminous bi-weekly composites. These comprehensive time series data sets are calibrated, georegistered daily observations and twice-monthly maximum NDVI composites for each annual growing season.

Global Experimental Bi-Weekly Normalized Difference data, computed from Global Vegetation Index ( GVI) data, are analyzed to monitor global vegetation as a potential tool in global climatic studies.

References

Kidwell, Katherine B., comp. and ed., 1991, NOAA polar orbiter data (TIROS-N, NOAA-6, NOAA-7, NOAA-8, NOAA-9, NOAA-10, NOAA-11, and NOAA-12) users guide: Washington, D.C., NOAA/NESDIS.

Kidwell, Katherine B., comp. and ed., May 1990, Global Vegetation Index user's guide: Washington, D.C., NOAA/NESDIS.

Ohring, George, Gallo, K.P., Gruber, Arnold, Planet, Walter, Stowe, Larry, Tarpley, J.D., 1989, Climate and global change: Eos, American Geophysical Union, v. 70, no. 41, October 10, 1989, p. 889, 891, 894, 901.

Earth Observation Satellite Company, 1994, Landsat system status report--September 1994: Lanham, Md., Earth Observation Satellite Company, p. 1-11.

National Oceanic and Atmospheric Administration, August 1981, National holdings of environmental satellite data of the National Oceanic and Atmospheric Administration: Washington, D.C., NOAA/NESDIS.

National Oceanic and Atmospheric Administration, 1985, Hydrologic and land sciences applications of the National Oceanic and Atmospheric Administration polar-orbiting satellite data: Washington, D.C., NOAA/NESDIS.

National Oceanic and Atmospheric Administration, March 1994, National Oceanic and Atmospheric Administration Retrospective satellite data price list, satellite products list and ordering procedures: Washington, D.C., NOAA/NESDIS.