Presentation is loading. Please wait.

Presentation is loading. Please wait.

IOCCG WG on Atmospheric correction over turbid waters C. Jamet IOCCG meeting Santa Monica, USA March, 1, 2015.

Published byLeslie Smith Modified over 8 years ago

Similar presentations

Presentation on theme: "IOCCG WG on Atmospheric correction over turbid waters C. Jamet IOCCG meeting Santa Monica, USA March, 1, 2015."— Presentation transcript:

1 IOCCG WG on Atmospheric correction over turbid waters C. Jamet IOCCG meeting Santa Monica, USA March, 1, 2015

2 Summary Goal: Inter-comparison and evaluation of existing AC algorithms over turbid waters Challenge: to understand the advantages and limitations of each algorithm and their performance under certain atmospheric and oceanic conditions Only focus on AC algorithms that deal with a non-zero NIR water-leaving radiances.  Guidances on the use of AC over turbid waters  Recommendations for improving and selecting the optimal AC

3 Scope of the WG This WG: only on nLw(NIR) ≠ 0 Other issues not adressed One dedicated chapter –Adjacency effects –Other issues

4 Actual members Participants: –Sean Bailey, NASA, USA –Julien Brajard, LOCEAN, France –Xiangqiang He, SIO, China –Cédric Jamet (Chairman), LOG ULCO/CNRS, France –Els Knaeps, VITO, Belgium –Kevin Ruddick, MUMM, Belgium –Palanasamy Shanmugam, ITT, India –Thomas Schroeder, CSIRO, Australia –Knut Stamnes, Stevens Institute of Technology, USA –Menghua Wang, NOAA, USA

5 Which sensors SeaWiFS MODIS-AQUA for starting MERIS VIIRS GOCI ????

6 Which sensors MODIS-AQUA MERIS (NO as ESA founded a similar project on extreme case-2 waters)  Member of the Science Support Team

7 many approaches exist, here are a few examples: assign aerosols (  ) and/or water contributions (Rrs(NIR)) e.g., Hu et al. 2000, Ruddick et al. 2000 use shortwave infrared bands e.g., Wang & Shi 2007 correct/model the non-negligible R rs (NIR) Lavender et al. 2005MERIS Bailey et al. 2010used in SeaWiFS Reprocessing 2010 Shanmugam, 2012 any sensor Wang et al. 2012GOCI use a coupled ocean-atmosphere optimization e.g., Moore et al., 1999; Chomko & Gordon 2001, Stamnes et al. 2003, Jamet et al., 2005, Brajard et al., 2006a, b, 2008, 2012; Ahn and Shanmugam, 2007; Kuchinke et al. 2009; Steinmetz et al., 2010; Other e.g., Chen et al., 2014; Doerrfer et al., 2007; He et al., 2013; Mao et al., 2013, 2014; Schroeder et al. 2007; Shanmugam and Tholkapiyan, 2014; Singh and Shanmugam, 2014 Which algorithms?

8 many approaches exist, here are a few examples: assign aerosols (  ) and/or water contributions (Rrs(NIR)) e.g., Ruddick et al. 2000 use shortwave infrared bands e.g., Wang & Shi 2007 correct/model the non-negligible R rs (NIR) Bailey et al. 2010used in SeaWiFS Reprocessing 2010 Shanmugam, 2012 any sensor Wang et al. 2012 GOCI/MODIS Jiang et al., 2014 use a coupled ocean-atmosphere optimization e.g., Moore et al., 1999; Stamnes et al. 2003; Brajard et al., 2012; Steimetz et al., 2012; Other e.g., Chen et al., 2014; He et al., 2013; Q. He et al., 2014; Schroeder et al., 2007; Singh and Shanmugam, 2014 Which algorithms?

9  Classic match-up analysis  Simulated dataset for sensitivities studies  Inspection of satellite images over contrasted coastal regions (Rrs and aerosol optical properties) How to evaluate for providing guidances and recommendations?

10  Send datasets to developers and send their results back?  YES  Every algorithm (when possible) implemented in SeaDAS so the entire processing chain is similar (differences in results only from AC)  Is it possible/reasonable?  Not easy and not always possible (might be implemented in a local version of SeaDAS) In practice

11 Work in 2015 3 teleconf (+numerous email exchanges) Focused on the generation of the simulated dataset (and the in-situ datasets)

12 Schedule May 2015: Generation of the synthetic datasets  Dec. 2015

13 Schedule May 2015: Generation of the synthetic datasets  Dec. 2015 Coupled ocean-atmosphere RTE: AccuRT (Jin and Stamnes, 1994; Thomas and Stamnes, 1999) –Aerosol models: NASA (Ahmad et al., 2010) –Bio-optical model: IOPs from COASTCOLOUR round robin –SeaWiFS, MODIS, MERIS, VIIRS completed –OLCI/SLSTR in progress

14 Schedule May 2015: Generation of the synthetic datasets  Dec. 2015 20000 cases: –5,000 cases for the ocean –For each ocean case, 4 aerosol models randomly selected among 80 possible –Geometry angles randomly selected: SZA: [0-70°] VZA: [0-70°] RAA: [0-180°]

15 Schedule May 2015: Generation of the synthetic datasets  Dec. 2015 June-July 2015: Distribution of the synthetic datasets to the AC providers  January 2016

16 Schedule May 2015: Generation of the synthetic datasets  Dec. 2015 June-July 2015: Distribution of the synthetic datasets to the AC providers  January 2016 Sept.-Oct. 2015: Compilation of the in-situ datasets owned by participants of the WG  In progress

17 In-situ datasets: AERONET-OC: moderately turbid waters LOG/MUMM TriOS: moderately to very turbid waters ASD measurements for VITO NOMAD, SeaBASS from NASA DATA from CSIRO DATA from X. He DATA from P. Shanmugam DATA from K. Ruddick

18 Schedule May 2015: Generation of the synthetic datasets  Dec. 2015 June-July 2015: Distribution of the synthetic datasets to the AC providers  January 2016 Sept.-Oct. 2015: Compilation of the in-situ datasets owned by participants of the WG  In progress Nov.-Dec 2015: Distribution of the in-situ datasets to the AC providers  Spring 2016

19 Schedule Jan.-June 2016: Analysis of the results on the synthetical and in-situ datasets  In progress for the simulated dataset

20

21

22 Statistical Parameters for the green algorithm Vs simulated data

23 Statistical Parameters for the purple algorithm Vs simulated data

24 -- Purple algorithm -- Green algorithm -- Purple algorithm -- Green algorithm

25 Schedule Jan.-June 2016: Analysis of the results on the synthetical and in-situ datasets March 2016: Distribution of the satellite images to the AC providers  Compilation of the satellite dataset in progress French Guiana, Eastern English Channel/North Sea, Vietnam, Yangtze coasts, Amazon river, Arabian Sea

26 Schedule Jan.-June 2016: Analysis of the results on the synthetical and in-situ datasets March 2016: Distribution of the satellite images to the AC providers  Compilation of the satellite dataset in progress French Guiana, Eastern English Channel/North Sea, Vietnam, Yangtze coasts, Amazon river, Arabian Sea

27 Schedule Jan.-June 2016: Analysis of the results on the synthetical and in-situ datasets March 2016: Distribution of the satellite images to the AC providers June-July 2016: Analysis of the satellite images Fall 2016: Redaction of the report  Winter 2016

28 ANNEX

29 Evaluation of AC Can round robin lead to improvements? –What can we learn? Range of validity and advantages Limitations (water type?) –Sensitivity studies Fixed aerosols  Variation/change of the bio-optical model Fixed bio-optical model  Variation/change of the aerosol models –Uncertainties propagation and budget on the hypothesis Ruddick et al. (2000) Bayseian statistics for NN (Aires et al., 2004a, 2004b, 2004c) –Uncertainties on the NN parameters (weights) –Uncertainties on the outputs Others ?

30 Evaluation of AC Can round robin lead to improvements? –What can we learn? Drawbacks and advantages Limitations –Sensitivity studies Fixed aerosols  Variation/change of the bio-optical model Fixed bio-optical model  Variation/change of the aerosol models –Uncertainties propagation and budget on the hypothesis Ruddick et al. (2000) Neukermans et al. (2012) Bayseian statistics for NN (Aires et al., 2004a, 2004b, 2004c) –Uncertainties on the NN parameters (weights) –Uncertainties on the outputs

Download ppt "IOCCG WG on Atmospheric correction over turbid waters C. Jamet IOCCG meeting Santa Monica, USA March, 1, 2015."

Similar presentations

Atmospheric Correction Algorithm for the GOCI Jae Hyun Ahn* Joo-Hyung Ryu* Young Jae Park* Yu-Hwan Ahn* Im Sang Oh** Korea Ocean Research & Development.

Atmospheric Correction Algorithm for the GOCI Jae Hyun Ahn* Joo-Hyung Ryu* Young Jae Park* Yu-Hwan Ahn* Im Sang Oh** Korea Ocean Research & Development.
Sentinel-3 Validation Team (S3VT) Meeting ESA/ESRIN, Frascati, Italy, 26-29 th November 2013 BOUSSOLE David ANTOINE CNRS-LOV, France now at: Curtin University,

Sentinel-3 Validation Team (S3VT) Meeting ESA/ESRIN, Frascati, Italy, th November 2013 BOUSSOLE David ANTOINE CNRS-LOV, France now at: Curtin University,
Satellite Ocean Color Overview Dave Siegel – UC Santa Barbara With help from Chuck McClain, Mike Behrenfeld, Bryan Franz, Jim Yoder, David Antoine, Gene.

Satellite Ocean Color Overview Dave Siegel – UC Santa Barbara With help from Chuck McClain, Mike Behrenfeld, Bryan Franz, Jim Yoder, David Antoine, Gene.
Welcome to the Ocean Color Bio-optical Algorithm Mini Workshop Goals, Motivation, and Guidance Janet W. Campbell University of New Hampshire Durham, New.

Welcome to the Ocean Color Bio-optical Algorithm Mini Workshop Goals, Motivation, and Guidance Janet W. Campbell University of New Hampshire Durham, New.
Beyond Chlorophyll: Ocean color ESDRs and new products S. Maritorena, D. A. Siegel and T. Kostadinov Institute for Computational Earth System Science University.

Beyond Chlorophyll: Ocean color ESDRs and new products S. Maritorena, D. A. Siegel and T. Kostadinov Institute for Computational Earth System Science University.
Achieving Global Ocean Color Climate Data Records ASLO Aquatic Sciences Meeting 17 February 2011 – San Juan, Puerto Rico Bryan A. Franz and the NASA Ocean.

Achieving Global Ocean Color Climate Data Records ASLO Aquatic Sciences Meeting 17 February 2011 – San Juan, Puerto Rico Bryan A. Franz and the NASA Ocean.
Evaluation of Trends in Chlorophyll-a Concentration in Response to Climatic Variability in the Eastern Bering Sea from MODIS Puneeta Naik a,b and Menghua.

Evaluation of Trends in Chlorophyll-a Concentration in Response to Climatic Variability in the Eastern Bering Sea from MODIS Puneeta Naik a,b and Menghua.
Characterization of radiance uncertainties for SeaWiFS and Modis-Aqua Introduction The spectral remote sensing reflectance is arguably the most important.

Characterization of radiance uncertainties for SeaWiFS and Modis-Aqua Introduction The spectral remote sensing reflectance is arguably the most important.
Atmospheric correction using the ultraviolet wavelength for highly turbid waters State Key Laboratory of Satellite Ocean Environment Dynamics, Second Institute.

Atmospheric correction using the ultraviolet wavelength for highly turbid waters State Key Laboratory of Satellite Ocean Environment Dynamics, Second Institute.
Optical in situ and geostationary satellite-borne observations of suspended particles in coastal waters Griet Neukermans 1,2 Promoter: Hubert Loisel 2.

Optical in situ and geostationary satellite-borne observations of suspended particles in coastal waters Griet Neukermans 1,2 Promoter: Hubert Loisel 2.
Evaluation of atmospheric correction algorithms for MODIS Aqua in coastal regions Goyens, C., Jamet, C., and Loisel, H. Atmospheric correction workshop.

Evaluation of atmospheric correction algorithms for MODIS Aqua in coastal regions Goyens, C., Jamet, C., and Loisel, H. Atmospheric correction workshop.
PJW, NASA, 13 Jun 2012, AtmCorr in Wimereux Comparison of ocean color atmospheric correction approaches for operational remote sensing of turbid, coastal.

PJW, NASA, 13 Jun 2012, AtmCorr in Wimereux Comparison of ocean color atmospheric correction approaches for operational remote sensing of turbid, coastal.
The GSM merging model. Previous achievements and application to GlobCOLOUR Globcolour / Medspiration user consultation, Dec 4-6, 2006, Villefranche/mer.

The GSM merging model. Previous achievements and application to GlobCOLOUR Globcolour / Medspiration user consultation, Dec 4-6, 2006, Villefranche/mer.
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.
Seasonal to Interannual Variability in Phytoplankton Biomass and Diversity on the New England Shelf: In Situ Time Series for Validation and Exploration.

Seasonal to Interannual Variability in Phytoplankton Biomass and Diversity on the New England Shelf: In Situ Time Series for Validation and Exploration.
IMOS Remote Sensing Cal/Val Twin goals: Local algorithm and product development Contribute to global databases and algorithms 3 main activities SST, Helen.

IMOS Remote Sensing Cal/Val Twin goals: Local algorithm and product development Contribute to global databases and algorithms 3 main activities SST, Helen.
Menghua Wang NOAA/NESDIS/ORA E/RA3, Room 102, 5200 Auth Rd.

Menghua Wang NOAA/NESDIS/ORA E/RA3, Room 102, 5200 Auth Rd.
A.B. VIIRS (Nov. 20, 2013).

A.B. VIIRS (Nov. 20, 2013).
In situ science in support of satellite ocean color objectives Jeremy Werdell NASA Goddard Space Flight Center Science Systems & Applications, Inc. 6 Jun.

In situ science in support of satellite ocean color objectives Jeremy Werdell NASA Goddard Space Flight Center Science Systems & Applications, Inc. 6 Jun.
Ocean Color Observations and Their Applications to Climate Studies Alex Gilerson, Soe Hlaing, Ioannis Ioannou, Sam Ahmed Optical Remote Sensing Laboratory,

Ocean Color Observations and Their Applications to Climate Studies Alex Gilerson, Soe Hlaing, Ioannis Ioannou, Sam Ahmed Optical Remote Sensing Laboratory,

Similar presentations

Ads by Google