Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 1 Dr. Satish Srivastava Chair, CEOS WGCV SAR Subgroup Canadian Space Agency Report on CEOS WGCV SAR Subgroup Activities Presented at 27 th CEOS WGCV Meeting National Physical Laboratory, UK June 12 – 15, 2007
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 2 CEOS WGCV SAR Subgroup (1) Mission: to foster high-quality synthetic aperture radar imagery from airborne and space borne SAR systems through precision calibration in radiometry, phase, and geometry, and validation of high level products. Objectives: –Act as a forum for international technical interchange on the evolving methodologies, techniques,and equipment of SAR data processing, calibration and validation, –To determine standard definitions and calibration-validation requirements for SAR systems. –To support changes in CEOS formats and user products as appropriate, –To facilitate international cooperative programs in the calibration and validation of SAR systems, –To educate the SAR community.
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 3 CEOS WGCV SAR Subgroup (2) Action Plan: –Annual Workshop/Meeting –Set up standard CAL/VAL sites – inter-sensor comparison –Calibration specification, requirements and techniques for Polarimetry, Interferrometry, POLInSAR Recent Annual Workshop/Meeting –2006 – Hosted by University of Edinburgh in Edinburgh, UK –2005 – Hosted jointly by DSTO and University of Adelaide in Adelaide, Australia – Hosted by ESA in Ulm, Germany –2003 – ASAR 2003 Workshop, hosted jointly by CSA and CEOS WGCV SAR Subgroup in Saint-Hubert, Canada –2002 – Hosted by BNSC in London, UK
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 4 Next CEOS SAR Subgroup Meeting (1) ASAR 2007 Workshop: hosted jointly by Canadian Space Agency and CEOS WGCV SAR Subgroup To be held in Vancouver, Canada, Sept. 11 – 13, 2007 Organizers: Canadian Space Agency, CEOS WGCV SAR Subgroup, Defence Research and Development Canada, Canada Centre for Remote Sensing and MacDonald, Detwiller & Associates (MDA) Website –
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 5 Next CEOS SAR Subgroup Meeting (2) ASAR 2007 WorkshopTimetable –First Call: February 15, 2007 –Abstract Submission: May 25, 2007 –Notification of Acceptance: June 8, 2007 –Registration: Now Open –Workshop: September 11 – 13, 2007 –Paper Submission: October 12, 2007 –Distribution of Proceedings: December 2007
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 6 Next CEOS SAR Subgroup Meeting (3) ASAR 2007 Workshop Suggested Topics –Next Generation SAR Systems –New SAR Missions –Innovative SAR Concepts –SAR Hardware and on-board Processing –Polarimetry and Interferrometry –Signal Processing Techniques –SAR User Requirements –SAR Calibration –Validation –Emerging SAR Applications –SAR Data Formats –Calibration Targets –Calibration Performance of on-going Missions –RCS Models and Scatterometers
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 7 Natural Calibration Sites International Amazon Rainforest Site –Data is routinely collected and analyzed for calibration monitoring of SAR satellites including RADARSAT-1 –Radiometry of the site remains stable Canadian Boreal Forest Site –Radiometric characterization completed at C-band using RADARSAT-1 data –Site seasonally dependent –Can be used complimentary to Amazon but with a reduced radiometric accuracy
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 8 Recognized distributed target reference Seasat SIR-B SIR-C ERS-1 ERS-2 Scatterometer JERS-1 RADARSAT-1 ENVISAT RADARSAT-2 Well characterized site radiometrically (late 80s early 90s) Isotropic Temporal stability Spatial uniformity Radiometric Calibration: Amazon Rainforest
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 9 Extraction of In-Flight Elevation Beam Pattern from Amazon Rainforest images (Antenna pattern correction off) P R ( inc ) G 2 ( el ) Beam EL1 RADARSAT-1 acquisitions to date: More than 1600 Comparison of measured pattern vs Calibrated Pattern
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 10 Boreal Forest - Hearst Site Northwestern Ontario landmass (Hudson Bay basin) Boreal Forest-Barrens transition boreal spruce, balsam fir, jack pine, poplar, birch, tamarack, cedar Seasonal Variations
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 11 LANDSAT W1 EL1 RADARSAT-1 Measurement Campaign Started in January 2003 Covering entire range of incidence angles (5 beams) 2 to 4 products of each beam every 24-day cycle S7 EL1 W1 W2 W3 EL1 W1 W2 W3 S7 10° 49°
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 12 Deriving a BF reflectivity estimate Linear fit of each gamma profile Then averaged to obtain reflectivity estimate ( inc ) EL1 W1 W2 W3 S7 Year-round Boreal Forest reflectivity ~ centred around Rainforest value (-6.5 dB) dependence conforms to clutter models Large variation of reflectivity levels Extractions of ( inc ) from Boreal Forest images Assuming beams remain calibrated during acquisitions Antenna Pattern Compensation ON
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 13 Piece-wise linear over each beam range Incidence Angle (deg.) EL1W1 W3 S7 Summer period – normalized (dB) W2 Seasonal Boreal Forest reflectivity
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 14 Deriving estimates seasonal reflectivity Model ~ k inc over incidence angle range of each tested beams Assumptions Seasonally stable Linear anisotropy Gamma Linear Fit (dB) Summer Winter EL1 W1 W2 W3 S7 EL1 W1 W2 W3 S7 Standard Deviation of dependance (dB/deg.) 'Summer''Winter' EL W W W S
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 15 Antenna Pattern Compensation OFF Elevation beam pattern extraction tests Average peak-peak pattern difference (dB) 100% swath 'Summer''Winter'Rainforest EL (1.26)1.43 (1.24)0.83 W S G 2 ( el ) P R / ( inc ) Procedure (as with Amazon imagery): Extract beam pattern Compare with calibrated pattern in Payload Parameters File Measure radiometric deviation: peak-peak of pattern difference (dB) In analysis software, substitute constant Rainforest reflectivity with 'summer' or 'winter' reference Mostly experimented with EL1, W1 and S7 so far, acquired in both reference periods Derived a beam-wise linear reflectivity estimate inc for both reference periods
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 16 EL1 'Summer' example: 1.17 dB PO M
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 17 EL1 'Winter' example: 1.26 dB PO M
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 18 W1 'Summer' example: 0.86 dB PO M
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 19 W1 'Winter' example: 1.33 dB PO M
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 20 S7 'Summer' example: 0.56 dB PO M
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 21 S7 'Winter' example: 0.88 dB PO M
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 22 Calibration Transponder Sites Multi-Transponder Sites in Canada –In Fall 2006, ESA relocated an ENVISAT ASAR Transponder in Resolute Bay in vicinity of a RADARSAT Transponder –Both Transponders are used simultaneously by ENVISAT –Another ENVISAT ASAR Transponder was recently relocated in Ottawa, again in vicinity of another RADARSAT Transponder –Two potential sites in Canada for inter-sensor comparisons for C- band SARs (e.g., RADARSAT-1 and 2, ENVISAT) RADARSAT Transponder ENVISAT Transponder ENVISAT ASAR Image of Resolute
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 23 RADARSAT-1 Precision Transponders for Image Quality and Calibration Measurements Resolute Bay Ottawa Fredericton Prince Albert SAR Impulse Response
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 24 Recommendations from SAR Subgroup (1) CEOS SAR Subgroup Workshop/Meeting held at Edinburgh in October 2006 concluded with a set of following recommendations to WGCV: In order to reduce the extent of the commissioning phase of space borne SARs, effort be invested as much as possible into pre-launch calibration (e.g. antennas, TR modules, etc) Data providers should investigate new product types that provide complex data in which the noise has been removed
Agence spatialeCanadian Space CanadienneAgency CEOS Working Group on Calibration & Validation (WGCV) 27th Meeting, NPL, UK Page 25 Recommendations from SAR Subgroup (2) In order to facilitate the use of calibrated SAR data (and to avoid the problem of continuously changing data formats), the data providers should provide: –a reader on the data CD itself –a LUT of calibration conversion factors for each pixel across a swath to covert DNs to sigma nought, beta nought and gamma CEOS should co-ordinate a central database to log the use, location and availability of corner reflectors, in order to increase the availability of calibration targets to other agencies for appropriate SAR sensors Future SAR Missions should be capable of full polarimetric imaging