Presentation is loading. Please wait.

Presentation is loading. Please wait.

Determining the accuracy of MODIS Sea- Surface Temperatures – an Essential Climate Variable Peter J. Minnett & Robert H. Evans Meteorology and Physical.

Published byCaren Morrison Modified over 8 years ago

Similar presentations

Presentation on theme: "Determining the accuracy of MODIS Sea- Surface Temperatures – an Essential Climate Variable Peter J. Minnett & Robert H. Evans Meteorology and Physical."— Presentation transcript:

1 Determining the accuracy of MODIS Sea- Surface Temperatures – an Essential Climate Variable Peter J. Minnett & Robert H. Evans Meteorology and Physical Oceanography Rosenstiel School of Marine and Atmospheric Science University of Miami, Miami, USA

2 Uncertainty estimates of satellite – derived SSTs Determined by comparisons with: –Drifting and moored buoys (subskin SST) –Ship-based radiometers (skin SST) Often expressed as a global mean and standard deviation, thereby hiding regional, seasonal and geophysical effects. Analysis of SST fields can reveal instrumental artifacts 2

3 3 Each processing step is prone to additional error sources. Uncertainty estimates From Cornillon et al, 2010, Sea-Surface Temperature Error Budget White Paper. (http://www.ssterrorbudget.org/ISSTST/)

4 4 Each processing step is prone to additional error sources. Uncertainty estimates From Cornillon et al, 2010, Sea-Surface Temperature Error Budget White Paper. (http://www.ssterrorbudget.org/ISSTST/)

5 Spatial distribution of errors Areas of high bias errors can be related to geophysical phenomena: aerosols, upwelling, diurnal heating, anomalous humidity distributions ….

6 Development of Version 6,, Collection 6 SST algorithm Correction to SST4 bias resulting from TERRA configuration changes MODIS-Terra calibration changes for channels 20 and 22. Median of SST4 residuals estimated using 4µ channels. Calibration issues during 2000 and 2001 had considerable impact on SST retrievals based on 4µm bands. X-axis is time: 2000-2009

7 MODIS TERRA Mirror side and Scan Angle corrections to SST (also computed for AQUA) Mirror side offset order 0.1K Cross-scan effect order 0.15K

8 CEOS definitions 8 Calibration: The process of quantitatively defining system responses to known, controlled signal inputs. Thus, a calibrated product is the output from the complete calibrated data generation chain. In the case of satellite-based measurements, vicarious calibration is indirect calibration achieved by simulating the signal at the satellite sensor input based on independently measured geophysical parameters, and comparing it to the actual signal measured by the sensor. The outcome of the comparison can be used to calibrate the sensor output. Validation: The process of assessing, by independent means, the quality of the data products derived from system outputs. Validation ensures that the quality of the products is properly assessed. In the case of satellite-based measurements, this is done via quantification of the uncertainties in Level 1b and Level 2 products. Thus, a validated product is the output from the complete validated data generation chain. Traceability: Refers to an unbroken chain of comparisons relating an instrument's measurement to a known standard. Calibration to a traceable standard can be used to determine an instrument's precision, accuracy and stability.

9 CEOS definitions 9 Calibration: The process of quantitatively defining system responses to known, controlled signal inputs. Thus, a calibrated product is the output from the complete calibrated data generation chain. In the case of satellite-based measurements, vicarious calibration is indirect calibration achieved by simulating the signal at the satellite sensor input based on independently measured geophysical parameters, and comparing it to the actual signal measured by the sensor. The outcome of the comparison can be used to calibrate the sensor output. Validation: The process of assessing, by independent means, the quality of the data products derived from system outputs. Validation ensures that the quality of the products is properly assessed. In the case of satellite-based measurements, this is done via quantification of the uncertainties in Level 1b and Level 2 products. Thus, a validated product is the output from the complete validated data generation chain. Traceability: Refers to an unbroken chain of comparisons relating an instrument's measurement to a known standard. Calibration to a traceable standard can be used to determine an instrument's precision, accuracy and stability. Calibration is a pre-launch calibration. On orbit, they are self-calibrating radiometers… Validation is post-launch: Identify instrumental artifacts Performance of the atmospheric correction algorithm Calibration and validation are traceable to SI standards

10 10 M-AERI cruises for MODIS, AATSR & AVHRR validation Explorer of the Seas: near continuous operation December 2000 – December 2007. Restarted February 2010. Explorer of the Seas

11 11 ISAR cruises for MODIS, AATSR & AVHRR validation

12 Internal Calibration 12

13 13 NIST water-bath black-body calibration target See: Fowler, J. B., 1995. A third generation water bath based blackbody source, J. Res. Natl. Inst. Stand. Technol., 100, 591-599

14 Traceability to NIST TXR 14

15 Next-generation ship-based FTIR spectroradiometer M-AERI Mk-2 undergoing tests at RSMAS. 15

16 M-AERI, ISAR…. measurements NIST- designed water-bath blackbody calibrator Satellite- derived SSTs NIST-traceable thermometers NIST TXR for radiometric characterization Laboratory calibration Matchup analysis of collocated measurements CDR of SST NIST Traceable error statistics

17 17 Future New ship-based spectroradiometers New spacecraft radiometers Better buoy temperatures Use modified Argo profilers, gliders More (autonomous) radiometers, also on UAVs Improved atmospheric correction formulations “Forward” solution for the atmospheric effect

18 18 Questions? Acknowledge support from MODIS Science Team, Dr Vince Salomonson, and NASA PO program, Dr Eric Lindstrom

Download ppt "Determining the accuracy of MODIS Sea- Surface Temperatures – an Essential Climate Variable Peter J. Minnett & Robert H. Evans Meteorology and Physical."

Similar presentations

Ground-based FTIR Update CAVIAR Meeting NPL, 29 th September 2010 Tom Gardiner, Marc Coleman.

Ground-based FTIR Update CAVIAR Meeting NPL, 29 th September 2010 Tom Gardiner, Marc Coleman.
Satellite Cloud and Aerosol climate records for the ESA Climate Change Initiative (CCI) Caroline Poulsen, Gareth Thomas, Richard Siddans, Don Grainger,

Satellite Cloud and Aerosol climate records for the ESA Climate Change Initiative (CCI) Caroline Poulsen, Gareth Thomas, Richard Siddans, Don Grainger,
Pathfinder –> MODIS -> VIIRS Evolution of a CDR Robert Evans, Peter Minnett, Guillermo Podesta Kay Kilpatrick (retired), Sue Walsh, Vicki Halliwell, Liz.

Pathfinder –> MODIS -> VIIRS Evolution of a CDR Robert Evans, Peter Minnett, Guillermo Podesta Kay Kilpatrick (retired), Sue Walsh, Vicki Halliwell, Liz.
The contribution of HyspIRI measurements to improving the quality of satellite-derived Climate Data Records Peter J Minnett Meteorology & Physical Oceanography.

The contribution of HyspIRI measurements to improving the quality of satellite-derived Climate Data Records Peter J Minnett Meteorology & Physical Oceanography.
Meteorology and Physical Oceanography

Meteorology and Physical Oceanography
Remote Sensing at RSMAS – a new NESDIS connection Peter J. Minnett Meteorology and Physical Oceanography Rosenstiel School of Marine and Atmospheric Science.

Remote Sensing at RSMAS – a new NESDIS connection Peter J. Minnett Meteorology and Physical Oceanography Rosenstiel School of Marine and Atmospheric Science.
Communicating Uncertainties for Microwave-Based ESDRs Frank J. Wentz, Carl A. Mears, and Deborah K. Smith Remote Sensing Systems, Santa Rosa CA Supported.

Communicating Uncertainties for Microwave-Based ESDRs Frank J. Wentz, Carl A. Mears, and Deborah K. Smith Remote Sensing Systems, Santa Rosa CA Supported.
Sea-Surface Temperature from MODIS Peter J Minnett, Robert H Evans and Gui Podestá Meteorology and Physical Oceanography Rosenstiel School of Marine and.

Sea-Surface Temperature from MODIS Peter J Minnett, Robert H Evans and Gui Podestá Meteorology and Physical Oceanography Rosenstiel School of Marine and.
Sea surface temperature measured by the MODerate resolution Imaging Spectroradiometer (MODIS). R. H. Evans, E. J. Kearns, P. J. Minnett, O. B. Brown, &

Sea surface temperature measured by the MODerate resolution Imaging Spectroradiometer (MODIS). R. H. Evans, E. J. Kearns, P. J. Minnett, O. B. Brown, &
Uncertainty estimates in input (Rrs) and output ocean color data: a brief review Stéphane Maritorena – ERI/UCSB.

Uncertainty estimates in input (Rrs) and output ocean color data: a brief review Stéphane Maritorena – ERI/UCSB.
SST from VIIRS on NPP: prelaunch preparations and post-launch validation Peter J Minnett & Robert H Evans Meteorology & Physical Oceanography Rosenstiel.

SST from VIIRS on NPP: prelaunch preparations and post-launch validation Peter J Minnett & Robert H Evans Meteorology & Physical Oceanography Rosenstiel.
Sandra Castro, Gary Wick, Peter Minnett, Andrew Jessup & Bill Emery.

Sandra Castro, Gary Wick, Peter Minnett, Andrew Jessup & Bill Emery.
Traceability to SI temperature standards: A prerequisite for Climate Data Records of SST Peter J Minnett Meteorology & Physical Oceanography Rosenstiel.

Traceability to SI temperature standards: A prerequisite for Climate Data Records of SST Peter J Minnett Meteorology & Physical Oceanography Rosenstiel.
Long-term radiometric validation of the ATSR SST record using the M-AERI Gary Corlett, David Llewellyn-Jones University of Leicester and Peter Minnett.

Long-term radiometric validation of the ATSR SST record using the M-AERI Gary Corlett, David Llewellyn-Jones University of Leicester and Peter Minnett.
Aquarius/SAC-D Mission Validation Working Group Summary Gary Lagerloef 6 th Science Meeting; Seattle, WA, USA 19-21 July 2010.

Aquarius/SAC-D Mission Validation Working Group Summary Gary Lagerloef 6 th Science Meeting; Seattle, WA, USA July 2010.
Characterizing and comparison of uncertainty in the AVHRR Pathfinder SST field, Versions 5 & 6 Robert Evans Guilllermo Podesta’ RSMAS Nov 8, 2010 with.

Characterizing and comparison of uncertainty in the AVHRR Pathfinder SST field, Versions 5 & 6 Robert Evans Guilllermo Podesta’ RSMAS Nov 8, 2010 with.
Xin Kong, Lizzie Noyes, Gary Corlett, John Remedios, Simon Good and David Llewellyn-Jones Earth Observation Science, Space Research Centre, University.

Xin Kong, Lizzie Noyes, Gary Corlett, John Remedios, Simon Good and David Llewellyn-Jones Earth Observation Science, Space Research Centre, University.
Cross Validation of Thermal Infrared Remotely Sensed Data In-Flight Using Automated Validation Sites © 2010 California Institute of Technology. Government.

Cross Validation of Thermal Infrared Remotely Sensed Data In-Flight Using Automated Validation Sites © 2010 California Institute of Technology. Government.
NOAA Research and Operations Marine Optical Buoy Design Review July 18-19, 2006 Plan for calibration and maintenance of AHAB Uncertainty Budget: Laboratory.

NOAA Research and Operations Marine Optical Buoy Design Review July 18-19, 2006 Plan for calibration and maintenance of AHAB Uncertainty Budget: Laboratory.
Calibration/Validation and Generating Sea- Surface Temperature Climate Data Records: An approach using ship-board radiometry Peter Minnett 1, Gary Corlett.

Calibration/Validation and Generating Sea- Surface Temperature Climate Data Records: An approach using ship-board radiometry Peter Minnett 1, Gary Corlett.

Similar presentations

Ads by Google