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grss 2012 - Special Issue on "Inter-Calibration of Satellite Instruments"
Topics/Call fo Papers
IEEE Transactions on Geoscience and Remote Sensing
Special Issue on “Inter-Calibration of Satellite Instruments”
The ability to detect and quantify changes in the Earth’s environment using remote sensing is dependent upon sensors providing
accurate and consistent measurements over time. A critical step in providing these measurements is establishing confidence and consistency between data from different sensors and putting them onto a common radiometric scale. However, ensuring that this process
can be relied upon long term and that there is physical meaning to the information requires traceability to internationally agreed,
stable, reference standards ideally tied to the international system of units (SI). This requires robust on-going calibration, validation,
stability monitoring, and quality assurance, all of which need to be underpinned and evidenced by comparisons involving a reference
standard or sensor and a methodology with defined uncertainty (in an absolute or temporal sense). This process can be used to provide
calibrations to other sensors (i.e. Inter-calibration).
Inter-calibration and comparisons between sensors have become a central pillar in calibration and validation strategies of national
and international organizations. The Global Space-based Inter-Calibration System (GSICS) is an international collaborative effort initiated by World Meteorological Organization (WMO) and the Coordination Group for Meteorological Satellites (CGMS) to monitor and
harmonize data quality from operational weather and environmental satellites. The Infrared Visible Optical Sensors (IVOS) sub-group
of the Committee on Earth Observation Satellites (CEOS) Working Group on Calibration and Validation (WGCV) extends this vision to
include all Earth observation sensors and satellite operating agencies. Inter-calibration techniques provide a practical means of correcting biases between sensors and bridging any potential data gaps between non-contiguous sensors in a critical time-series and the intercalibration reference serves as a transfer standard. It is expected that promotion of the use of robust inter-calibration techniques will lead
to improved consistency between satellite instruments, reduce overall costs, and facilitate accurate monitoring of planetary changes.
List of topics
Contributions for this special issue are welcome from the research community. This special journal issue will focus on how
inter-calibration and comparison between sensors can provide an effective and convenient means of verifying post-launch sensor
performance and correcting the differences. The guest editors invite submissions that explore topics including, but not limited
to, pseudo-invariant calibration sites, instrumented sites, simultaneous nadir observations and other ray-matching comparisons,
lunar and stellar observations, deep convective clouds, liquid water clouds, Rayleigh scattering and Sun glint. The inter-calibration results should focus on rigorous quantification of bias and associated sources of uncertainty from different sensors, crucial
for long-term studies of the Earth. The goal of this special journal issue is to capture the state-of-the-art methodologies and
results from inter-calibration of satellite instruments, including full end-to-end uncertainty analysis. Accordingly, it will become
a reference anthology for the remote sensing community.
Paper submission deadline: 31 January 2012
Submission guidelines
Normal page charges, peer-review, and editorial process will apply. Prospective authors should follow the regular guidelines of TGRS,
and should submit their manuscripts electronically to http://mc.manuscriptcentral.com/tgrs. Please indicate during your submission
that the paper is intended for this Special Issue. Inquiries with respect to the special issue should be directed to the Guest Editors.
Guest Editors
Gyanesh Chander, Ph.D.
Lead Systems Engineer
SGT/USGS EROS
47914 252nd St.
Sioux Falls, SD, 57198 USA
Phone: 605-594-2554
Email: gchander-AT-usgs.gov
Tim Hewison, Ph.D.
Meteorological Scientist
EUMETSAT
Eumetsat-Allee 1
64295 Darmstadt, Germany
Phone: +49 6151 807 364
Email: tim.hewison-AT-eumetsat.int
Nigel Fox, Ph.D.
Head of Earth Observation
National Physical Laboratory
Hampton Rd, Teddngton
Middx, TW11 0LW, UK
Phone: +44 208 943 6825
Email: nigel.fox-AT-npl.co.uk
Xiangqian (Fred) Wu, Ph.D.
Physical Scientist
STAR/NESDIS/NOAA
E/RA2, 7214, 5200 Auth Rd.
Camp Springs, MD 20746 USA
Phone: 301-763-8136 ext. 138
Email: Xiangqian.Wu-AT-noaa.gov
Xiaoxiong (Jack) Xiong, Ph.D.
Optical Physicist
NASA GSFC
Code 614.4,
Greenbelt, MD, 20771, USA
Phone: 301-614-5957
Email: Xiaoxiong.Xiong-1-AT-nasa.gov
William J. Blackwell, Sc.D.
Associate Editor, IEEE TGRS
MIT Lincoln Laboratory
244 Wood St., S4-225
Lexington, MA 02420, USA
Phone: 781-981-7973
Email: WJB-AT-LL.MIT.EDU
http://www.grss-ieee.org/wp-content/uploads/2011/1...
Special Issue on “Inter-Calibration of Satellite Instruments”
The ability to detect and quantify changes in the Earth’s environment using remote sensing is dependent upon sensors providing
accurate and consistent measurements over time. A critical step in providing these measurements is establishing confidence and consistency between data from different sensors and putting them onto a common radiometric scale. However, ensuring that this process
can be relied upon long term and that there is physical meaning to the information requires traceability to internationally agreed,
stable, reference standards ideally tied to the international system of units (SI). This requires robust on-going calibration, validation,
stability monitoring, and quality assurance, all of which need to be underpinned and evidenced by comparisons involving a reference
standard or sensor and a methodology with defined uncertainty (in an absolute or temporal sense). This process can be used to provide
calibrations to other sensors (i.e. Inter-calibration).
Inter-calibration and comparisons between sensors have become a central pillar in calibration and validation strategies of national
and international organizations. The Global Space-based Inter-Calibration System (GSICS) is an international collaborative effort initiated by World Meteorological Organization (WMO) and the Coordination Group for Meteorological Satellites (CGMS) to monitor and
harmonize data quality from operational weather and environmental satellites. The Infrared Visible Optical Sensors (IVOS) sub-group
of the Committee on Earth Observation Satellites (CEOS) Working Group on Calibration and Validation (WGCV) extends this vision to
include all Earth observation sensors and satellite operating agencies. Inter-calibration techniques provide a practical means of correcting biases between sensors and bridging any potential data gaps between non-contiguous sensors in a critical time-series and the intercalibration reference serves as a transfer standard. It is expected that promotion of the use of robust inter-calibration techniques will lead
to improved consistency between satellite instruments, reduce overall costs, and facilitate accurate monitoring of planetary changes.
List of topics
Contributions for this special issue are welcome from the research community. This special journal issue will focus on how
inter-calibration and comparison between sensors can provide an effective and convenient means of verifying post-launch sensor
performance and correcting the differences. The guest editors invite submissions that explore topics including, but not limited
to, pseudo-invariant calibration sites, instrumented sites, simultaneous nadir observations and other ray-matching comparisons,
lunar and stellar observations, deep convective clouds, liquid water clouds, Rayleigh scattering and Sun glint. The inter-calibration results should focus on rigorous quantification of bias and associated sources of uncertainty from different sensors, crucial
for long-term studies of the Earth. The goal of this special journal issue is to capture the state-of-the-art methodologies and
results from inter-calibration of satellite instruments, including full end-to-end uncertainty analysis. Accordingly, it will become
a reference anthology for the remote sensing community.
Paper submission deadline: 31 January 2012
Submission guidelines
Normal page charges, peer-review, and editorial process will apply. Prospective authors should follow the regular guidelines of TGRS,
and should submit their manuscripts electronically to http://mc.manuscriptcentral.com/tgrs. Please indicate during your submission
that the paper is intended for this Special Issue. Inquiries with respect to the special issue should be directed to the Guest Editors.
Guest Editors
Gyanesh Chander, Ph.D.
Lead Systems Engineer
SGT/USGS EROS
47914 252nd St.
Sioux Falls, SD, 57198 USA
Phone: 605-594-2554
Email: gchander-AT-usgs.gov
Tim Hewison, Ph.D.
Meteorological Scientist
EUMETSAT
Eumetsat-Allee 1
64295 Darmstadt, Germany
Phone: +49 6151 807 364
Email: tim.hewison-AT-eumetsat.int
Nigel Fox, Ph.D.
Head of Earth Observation
National Physical Laboratory
Hampton Rd, Teddngton
Middx, TW11 0LW, UK
Phone: +44 208 943 6825
Email: nigel.fox-AT-npl.co.uk
Xiangqian (Fred) Wu, Ph.D.
Physical Scientist
STAR/NESDIS/NOAA
E/RA2, 7214, 5200 Auth Rd.
Camp Springs, MD 20746 USA
Phone: 301-763-8136 ext. 138
Email: Xiangqian.Wu-AT-noaa.gov
Xiaoxiong (Jack) Xiong, Ph.D.
Optical Physicist
NASA GSFC
Code 614.4,
Greenbelt, MD, 20771, USA
Phone: 301-614-5957
Email: Xiaoxiong.Xiong-1-AT-nasa.gov
William J. Blackwell, Sc.D.
Associate Editor, IEEE TGRS
MIT Lincoln Laboratory
244 Wood St., S4-225
Lexington, MA 02420, USA
Phone: 781-981-7973
Email: WJB-AT-LL.MIT.EDU
http://www.grss-ieee.org/wp-content/uploads/2011/1...
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Last modified: 2011-10-06 06:38:49