Sentinel-5P NRTI AER AI: Near Real-Time UV Aerosol Index (COPERNICUS/S5P/NRTI/L3_AER_AI)

###Sentinel-5 Precursor

Sentinel-5 Precursor is a satellite launched on 13 October 2017
by the European Space Agency to monitor air pollution. The onboard sensor
is frequently referred to as Tropomi (TROPOspheric Monitoring Instrument).

All of the S5P datasets have two versions: Near Real-Time (NRTI) and Offline
(OFFL). The NRTI assets cover a smaller area than the OFFL assets, but
appear more quickly after acquisition. The OFFL assets contain data
from a single orbit (which, due to half the earth being dark, contains
data only for a single hemisphere).

The original Sentinel 5P Level 2 (L2) data is binned
by time, not by latitude/longitude. To make it possible to ingest the data
into Earth Engine, each Sentinel 5P L2 product is converted to L3, keeping
a single grid per orbit (that is, no aggregation across products
is performed).

Source products spanning the antimeridian are ingested as two Earth Engine
assets, with suffixes _1 and _2.

The conversion to L3 is done by the harpconvert
tool using the bin_spatial operation. The source data is filtered to
remove any values with QA values of less than 50.


This dataset provides NRTI high-resolution imagery of the UV Aerosol Index
(UVAI), also called the Absorbing Aerosol Index (AAI).

The AAI is based on wavelength-dependent changes in Rayleigh scattering in
the UV spectral range for a pair of wavelengths. The difference between
observed and modelled reflectance results in the AAI. When the AAI is
positive, it indicates the presence of UV-absorbing aerosols like dust and

The wavelengths used have very low ozone absorbtion, so unlike aerosol optical
thickness measurements, AAI can be calculated in the presence of clouds.
Daily global coverage is therefore possible.

For this L3 AER_AI product, the absorbing_aerosol_index is calculated with a
pair of measurements at the 354 nm and 388 nm wavelengths.

To make our NRTI L3 products, we use harpconvert
to grid the data.

Example harpconvert invocation for one tile:

harpconvert --format hdf5 --hdf5-compression 9
-a 'absorbing_aerosol_index_validity>50;derive(datetime_stop {time});
bin_spatial(2001, 50.000000, 0.01, 2001, -120.000000, 0.01);
absorbing_aerosol_indexA measure of the prevalence of aerosols in the atmosphere, calculated by [this equation]( using the 354/388 wavelength pair.
sensor_altitudeAltitude of the satellite with respect to the geodetic sub-satellite point (WGS84).
sensor_azimuth_angleAzimuth angle of the satellite at the ground pixel location (WGS84); angle measured East-of-North.
sensor_zenith_angleZenith angle of the satellite at the ground pixel location (WGS84); angle measured away from the vertical.
solar_azimuth_angleAzimuth angle of the Sun at the ground pixel location (WGS84); angle measured East-of-North.
solar_zenith_angleZenith angle of the satellite at the ground pixel location (WGS84); angle measured away from the vertical.


European Union/ESA/Copernicus (producer, licensor)
Google Earth Engine (host)
STAC Version 0.6.0
Keywords TROPOMI, aai, aerosol, air_quality, copernicus, esa, eu, knmi, pollution, s5p, sentinel, uvai
License proprietary
Temporal Extent 7/10/2018, 4:17:44 AM - now
Type image_collection
GSD arc degreesm
Platform Sentinel-5P
Instrument TROPOMI
gee:revisit_interval days
Asset schema {"name":"ALGORITHM_VERSION","description":"The algorithm version used in L2 processing. It's separate from the\nprocessor (framework) version, to accommodate different release\nschedules for different products.\n","type":"STRING"},{"name":"BUILD_DATE","description":"The date, expressed as milliseconds since 1 Jan 1970, when the software used to perform L2 processing was built.","type":"STRING"},{"name":"HARP_VESRION","description":"The version of the HARP tool used to grid the L2 data into an L3\nproduct.\n","type":"INT"},{"name":"INSTITUTION","description":"The institution where data processing from L1 to L2 was performed.","type":"STRING"},{"name":"L3_PROCESSING_TIME","description":"The date, expressed as milliseconds since 1 Jan 1970, when Google processed the L2 data into L3 using harpconvert.","type":"INT"},{"name":"LAT_MAX","description":"The maximum latitude of the asset (degrees).","type":"DOUBLE"},{"name":"LAT_MIN","description":"The minimum latitude of the asset (degrees).","type":"DOUBLE"},{"name":"LON_MAX","description":"The maximum longitude of the asset (degrees).","type":"DOUBLE"},{"name":"LON_MIN","description":"The minimum longitude of the asset (degrees).","type":"DOUBLE"},{"name":"ORBIT","description":"The orbit number of the satellite when the data was acquired.\n","type":"INT"},{"name":"PLATFORM","description":"Name of the platform which acquired the data.\n","type":"STRING"},{"name":"PROCESSING_STATUS","description":"The processing status of the product on a global level, mainly based\non the availability of auxiliary input data. Possible values are\n\"Nominal\" and \"Degraded\".\n","type":"STRING"},{"name":"PROCESSOR_VERSION","description":"The version of the software used for L2 processing, as a string of\nthe form \"major.minor.patch\".\n","type":"STRING"},{"name":"PRODUCT_ID","description":"Id of the L2 product used to generate this asset.\n","type":"STRING"},{"name":"PRODUCT_QUALITY","description":"Indicator that specifies whether the product quality is degraded or\nnot. Allowed values are \"Degraded\" and \"Nominal\".\n","type":"STRING"},{"name":"REVISION_CONTROL_IDENTIFIER","description":"Revision control system identifier for the source code of the\nsoftware used for L2 processing of this data.\n","type":"STRING"},{"name":"SENSOR","description":"Name of the sensor which acquired the data.","type":"STRING"},{"name":"SPATIAL_RESOLUTION","description":"Spatial resolution at nadir. For most products this is `3.5x7km2`,\nexcept for `L2__O3__PR`, which uses `28x21km2`, and\n`L2__CO____` and `L2__CH4___`, which both use `7x7km2`.\nThis attribute originates from the CCI standard.\n","type":"STRING"},{"name":"TIME_REFERENCE_DAYS_SINCE_1950","description":"Days from 1 Jan 1950 to when the data was acquired.","type":"INT"},{"name":"TIME_REFERENCE_JULIAN_DAY","description":"The Julian day number when the data was acquired.","type":"DOUBLE"},{"name":"TRACKING_ID","description":"UUID for the L2 product file.","type":"STRING"}