Sentinel-3 Sea and Land Surface Temperature Radiometer (SLSTR) · 2020-02-19 · 2 Sentinel-3 •...
Transcript of Sentinel-3 Sea and Land Surface Temperature Radiometer (SLSTR) · 2020-02-19 · 2 Sentinel-3 •...
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Sentinel-3 Sea and Land Surface Temperature Radiometer (SLSTR)
Mireya Etxaluze (STFC RAL Space)
RAL Space Radiometry Group Dave Smith
Mireya Etxaluze, Ed Polehampton, Caroline Cox, Tim Nightingale, Dan Peters
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Sentinel-3
• ESA is developing a family of Earth observation satellites called Sentinels for the European Union Copernicus programme
• Sentinel-3 will support ocean forecasting systems, as well as environmental and climate change monitoring
• It consists of the following instruments: • Sea and Land Surface Temperature Radiometer (SLSTR) • Ocean and Land Colour Instrument (OLCI) • Radar Altimeter (SRAL) • Microwave Radiometer (MWR)
© 2017 RAL Space
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Credits: SLSTR Core team
• ThalesAlenia: Sentinel-3 prime contractor • Leonardo: SLSTR instrument prime contractor
– Focal Plane Assembly (FPA) – Front End electronics (FEE) – Cryocooler (CCS)
• JOP: Opto-mechanical enclosure • RAL Space:
– Systems design consultancy – Ground calibration – In-orbit commissioning – SLSTR Expert Support Laboratory (part of the Sentinel-3
Mission Performance Centre)
© 2017 RAL Space
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Where does SLSTR fit in?
1991-2000 ATSR-1
1995-2008 ATSR-2 2002-2012- AATSR
SLSTR follows a series of successful sensors, aiming for continuous and consistent monitoring of sea surface temperatures
2016 – Sentinel 3A
Launched 16-Feb-2016 J
© 2017 RAL Space
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SLSTR bands
© 2017 RAL Space
Band λ centre (µm)
Width (µm)
Res. (km)
Function
S1 0.555 0.02 0.5 Cloud screening, vegetation monitoring, aerosol
S2 0.659 0.02 0.5 NDVI, vegetation monitoring, aerosol S3 0.865 0.02 0.5 NDVI, cloud flagging, Pixel co-registration S4 1.375 0.015 0.5 Cirrus detection over land S5 1.615 0.06 0.5 Cloud clearing, ice, snow, vegetation
monitoring S6 2.255 0.05 0.5 Vegetation state and cloud clearing S7 3.740 0.38 1.0 SST, LST, Active fire S8 10.85 0.9 1.0 SST, LST, Active fire S9 12.00 1.0 1.0 SST, LST F1 3.740 0.38 1.0 Active fire F2 10.85 0.9 1.0 Active fire
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SLSTR Basic Geometry
© 2017 RAL Space
• As for (A)ATSR series, the conical scanning concept is adopted. • Two separate scans (instead of one for AATSR) have been implemented to increase the
swath width • a nadir view (1400km) • an inclined oblique view (740km)
• Internal calibration sources are viewed once in each cycle of two scans (0.6 seconds) • Two atmospheric path views are fundamental to characterise the atmosphere (aerosols,
water vapour)
θ=23.5 deg
β=47 deg
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7 © 2017 RAL Space Nadir and oblique views
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8 © 2017 RAL Space Nadir and oblique views
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9 SLSTR Calibration Meeting – RAL 18/19-Dec-2013 9
SLSTR Scanning Geometry
Nadir
Oblique
© 2017 RAL Space
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10 SLSTR Calibration Meeting – RAL 18/19-Dec-2013 10
Sentinel-3 SLSTR First Image over Egypt
03/03/2016 +
Last AATSR image over Egypt 07/04/2012
© 2017 RAL Space
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11 SLSTR Calibration Meeting – RAL 18/19-Dec-2013 11
Sentinel-3 SLSTR First Image over Egypt
03/03/2016 +
Last AATSR image over Egypt 07/04/2012
© 2017 RAL Space
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On-ground Calibration In order to make reliable maps, careful pre-launch and in-orbit calibration is required! • Visible channel signals with known reference lamps • Thermal channel signals with thermally controlled
external blackbodies • Detector positions and shapes with respect to the line
of sight
© 2017 RAL Space
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In-orbit calibration
RAL space participates on the commissioning phase:
• Internal calibration source performance and stability
• Scanner stability
• Geometric calibration
• Characterisation of detector gains and stability
• Dynamic range
• Verification of Level-1 images
• Flagging (clouds, saturation etc)
© 2017 RAL Space
Day
Tim
e
N
ight
Antarctic
Arctic
Russia
Brazil
scan position
China
Arctic
Iceland
Hot
BB
(N)
Obl
ique
Nad
ir C
old
BB
(O)
Visc
al
Hot
BB
(O)
Obl
ique
Nad
ir C
old
BB
(N)
One orbit of data from 3.7µm channel showing the entire scan cycle
Australia
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Geometric calibration
© 2015 RAL Space
Quasi-Cartesian grid centred on satellite ground track and aligned to the geoid One instrument scan (nadir Earth view) shown in yellow
x(j)
y(i)
Ground track
Each pixel is then allocated a longitude and latitude based on the satellite ground track via a 16 km “tie-point” grid.
Nadir errors
Oblique errors
Geo-location works fine for the sea surface, but for land, there can be view angle related shifts…
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Monitoring VISCAL calibration unit
© 2017 RAL Space
The VISCAL signal was constant until the instrument was cool down and the SWIR and the TIR channels were switched on, on March 21. Oscillations are due to the build up of ice on the FPA. It is reduced after each decontamination
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VIS/SWIR Inter-band coregistration
© 2017 RAL Space
In the along-track direction, the offset changes from +2 pixels (at the beginning of the swath) to -1 pixel (at the end of the swath).
In the nadir view, Level-1 data present a positional offset changing from 2 pixels (at the beginning of the swath) to 1 pixel (at the end of the swath) in the across-track direction.
Level-1. Nadir view
Along-track
Across-track
S
N
E W
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Offsets were measured by correlation array
© 2017 RAL Space
Before shift correction
After shift correction
VIS/SWIR Inter-band coregistration
0.9526
0.9998
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18 © 2015 RAL Space
Level-1. Nadir view Before correction S8 minus S7 S8 S7
S8 minus S7 corrected
S8 S7
A"er 250m posi.onal offset correc.on
TIR Inter-band coregistration
Inter-band misalignment is due to a time offset in the read outs
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SWIR Channel ‘Striping’
Image from the Sahara desert (2.25µm channel)
• SLSTR uses several detectors per channel
• Early images were very striped due
to different detectors having different radiometric responses, and water vapor contamination
© 2017 RAL Space
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SWIR Channel ‘Striping’
Image from the Sahara desert (2.25µm channel)
• SLSTR uses several detectors per channel
• Early images were very striped due
to different detectors having different radiometric responses, and water vapor contamination
© 2017 RAL Space
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SWIR Channel ‘Striping’
Image from the Sahara desert (2.25µm channel)
• SLSTR uses several detectors per channel
• Early images were very striped due
to different detectors having different radiometric responses, and water vapor contamination
© 2017 RAL Space
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Verification of radiometric calibration
General comparison with MODIS-A, MERIS, OLCI, and AATSR over deserts reveal that:
• Bands S1, S2 and S3 are 3% higher than the predictions • SWIR bands largely overestimated (measured radiances are lower than
expected) • About 10% for 1610nm, and ~40% for 2200nm
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Inter-band calibration over sunglint
• First goal is to use sun-glint to compare relative calibrations of VIS/SWIR channels
• Using VIS and the SWIR channels, we can derive the 3.7µm radiances over sun-glint and provide a calibration reference for the fire channel F1. • Needed for BTs > 305K where S7 saturates
• Transfer the absolute calibration of one reference spectral band to other spectral bands, from the visible to the NIR wavelengths.
• Radiative transfer modelling of sun-glint over ocean.
© 2017 RAL Space
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Modeling sunglint based in ORAC (Oxford-RAL Aerosols and Clouds)
The model accounts for:
White-cap contribution to the reflectance ρwc(wcfrac) Total underlight contribution: (Fresnel’s Law, surface transmission and underlight reflectance) ρul(Rwb) Water body reflectance: (Chl concentration, CDOM absorption, back scattering Rwb
Glint reflectance contribution ρgl(Rwr) Reflectance from wind-roughened surface (Cox & Munk 1956) Rwr
The surface reflectance: ρsr = ρwc + (1+wcfrac)*(ρgl + ρul)
© 2017 RAL Space
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Rayleigh scattering
© 2017 RAL Space
Scattering by the atmosphere (τ, Pressure, angles)
Solar attenuation Tsol
Forward scattered solar signal Rsol
Attenuation of reflected signal Tsat
Forward scattered reflected signal Rsat
Direct scattering back to satellite R’sat
Optical depth: τ = (0.008569/λ4)*(1.0 + 0.0113/λ2 + 0.00013/λ4)
Total transmission: T = (Tsol+Rsol)*(Tsat+Rsat)
The full surface reflectance: ρ = ρsr*T + R’sat
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Atmospheric effects
The transmittance of the atmosphere
Optical depth due to H2O, O3, CO2 SLSTR Level-1
auxiliary data files Optical depth due to Aerosols AERONET
© 2017 RAL Space
Transmittance: exp(-(τH2O+τO3+τco2+τaer)/cos(θ))
Total surface reflectance: ρtot = ρ*Tgs*Tgo
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AATSR vs.model – South Pacific 04/01/2010
© 2017 RAL Space
Nadir 0.56 µm Nadir 0.66 µm
Nadir 0.862 µm Nadir 1.593 µm
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MODIS vs.model – South Pacific 01/04/2017
© 2017 RAL Space
-0.7% 0.01%
0.87% -0.03%
Nadir 0.65 µm Nadir 0.86 µm
Nadir 1.63 µm Nadir 2.11 µm
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SLSTR vs.model – South Pacific 01/04/2017
© 2017 RAL Space
Wavelength (nm) rel.Dif (%)
553.9 0.4
645.8 3.1
856.9 2.4
1628.1 -‐11.3
2114.0 -‐39.7
Nadir 0.56 µm
Nadir 0.67 µm
Nadir 0.87 µm
Nadir 1.61 µm
Nadir 2.25 µm
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SLSTR vs.model – South Pacific 01/04/2017
© 2017 RAL Space
Wavelength (nm) rel.Dif (%)
553.9 0.4
645.8 3.1
856.9 2.4
1628.1 -‐11.3
2114.0 -‐39.7
Good agreement with the absolute calibration measured on Deserts
Nadir 0.56 µm
Nadir 0.67 µm
Nadir 0.87 µm
Nadir 1.61 µm
Nadir 2.25 µm
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Current status of the mission • Level-1 data from Sentinel-3A already available since November – e.g. from the Copernicus Online Data Archive https://coda.eumetsat.int/ • Some issues are still under investigation:
– Nadir/Oblique geolocation correction is ongoing – Inter-band coregistration has been solved but the corrections have not
been implemented on the Level-1 data from coda.eumentsat.int – SWIR calibration error being investigated – Transfer the absolute calibration over the 3.7µm radiances over sun-glint
and provide a calibration reference for the fire channel F1.
• Level-2 maps of sea and land surface temperatures to be released in summer 2017
• Sentinel-3B SLSTR ground calibration just completed - due for launch towards
the end of 2017
• Sentinel-3C and Sentinel-3D currently being developed and will be integrated/tested over the next 5 years, ready to replace A & B at the end of their life
© 2017 RAL Space