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Transcript 
LAND PRODUCT VALIDATION
update
F. Baret, J. Nightingale, S. Garrigues, J. Nickeson
Missoula, 17 June 2009
1/29
Outline
• CEOS LPV context and structure
• Guidelines for best practices
• The way forward …
2/29
CEOS/WGCV/LPV
•CEOS (committee on Earth Observation Satellite): group of
space agencies aiming at harmonizing their activities at the
international level.
•Composed of several working groups (WG) including WG
on Calibration and Validation (WGCV).
•WGCV is made of several subgroups:
- IVOS (Infrared and Visible Optical Sensors)
- Microwave
- SAR
- Terrain Mapping
- Atmospheric Chemistry
- Land Product Validation (LPV)
3/29
Mission Statement & Goals
• To foster quantitative validation of higher level global land
products derived from remote sensing data
• To relay results to users
• To develop and promote international standards and
protocols for field sampling, scaling, error budgeting,
data exchange
• To provide feed-back to international structures
(GEO/GEOSS, GCOS, GTOS, IGBP …) for :
• product definition, accuracy and quality assurance
• Requirements for future missions
4/29
Role of LPV within ECVs
• Essential Climate Variables (ECVs) are recognized
to play a key role:
– within international scientific structures (GCOS, GTOS)
– international convention for verification (UNFCCC) to
complement/compare with national (official) figures
• Strong requirements on the evaluation of product
uncertainties: need coordinated and consensus
validation efforts mandatory for all the ECVs
5/29
Implementation tools
• CEOS has no proper funding mechanisms
• Actions based on best efforts by space
agencies
– CEOS provides recommendations to space agencies…
– Possible direct actions on satellite data access
• Direct actions within the community
– Synergizing existing projects
– Initiating new projects
• Mostly a bottom-up approach
6/29
Products targeted
•
•
•
•
•
•
•
•
Land cover with GOFC-GOLD
Fire (mainly burnt area) with GOFC-GOLD
Biophysical variables (LAI, fAPAR)
Albedo, BRDF, surface reflectance
Land Surface Temperature and emissivity (with IVOS)
Soil moisture
Biomass? In discussion with GOFC-GOLD
Snow?
7/29
LPV proposed new structure
sub-groups by product family with leads from the
community if possible from different continents
–
–
–
–
–
–
Albedo: G. Schaepman & C. Schaaf
Land-Cover: M. Herold & M. Friedl
Fire: K. Tansey & L. Boschetti
Vegetation: R. Fernandes, S. Plummer, J. Nightingale
Land Surface Temperature & emissivity: S. Hook & J. Sobrino
Soil: W. Wagner & T. Jackson
8/29
Role of sub-group leads
• Coordinate the validation activities at the global level:
– Guideline for best practices
• Lead the writing of a guideline document for best practices on validation
• Ensures community consensus and publication/distribution
• Ensures that the document is updated when new data / methods are available
– Validation activities: promote their development/implementation
•
•
•
•
Data sharing
Data compilation
Implementation of validation exercise
Publication/distribution of results
• Convey information to and from the community
– Plans/Status/Results of the validation towards CEOS/international
organizations/community
9/29
Communication tools
+ LPV Web site
http://lpvs.gsfc.nasa.gov
+ LPV Wiki
http://lpvs.pbworks.com/
+ LPV Listservs
10/29
Outline
• CEOS LPV context and structure
• Guidelines for best practices
• The way forward …
11/29
Best practices guidelines document
•The “best practices guidelines” should be:
•Based on current knowledge, tools, data and methods
• Tested and easily repeatable
•The Best Practices guidelines document should:
• Define the best practices including data and methods to conduct
validation of a satellite-derived land product.
• Be a “living” document that is updated as tools, data, methods are
improved through scientific endeavour
•Process for Endorsement by CEOS/ community
• Peer review process
11/29
Proposed common structure
1 Introduction
2 Validation
2.1 Data sets
2.2 Global validation
3 Intercomparison
3.1 The satellite data
3.2 Global intercomparison
4 Recommendations / Conclusions
5 References
13/29
Validation and intercomparison
‘validation’ is the process of quantitatively defining the system
response to known, controlled signal inputs.
‘Validation’ refers to assessing the uncertainty of higher level, satellite sensor derived products
by analytical comparison to reference data, which is presumed to represent the target value.
‘Intercomparison’ of data products provides an initial indication of gross differences and
possibly insights into the reasons for the differences.
(Justice et al. 2000)
Validation and intercomparison are mandatory and complementary
Validation allows ‘absolute’ quantification of uncertainties
but often limited by the number and quality of available reference data
Intercomparison provides a more exhaustive evaluation of
consistencies/differences
Required by users
required when combining several products
14/29
Products definition and uncertainties
• Products definition: ECVs not always very
clearly defined (GCOS/GTOS documents).
• Need more process model related defintions
• Feedback to GCOS/GTOS
• Required uncertainties attached to ECVs not
defined in a traceable way
• Need more process related uncertainties evaluation
• Threshold / Optimal / Target ?
• Feedback to GCOS/GTOS
15/29
Data sets for validation: sites
Distribution of sites: must be representative of surface types, state/conditions
- systematic (FRA 2010)
- stratified
Existing data sets
Albedo: 19 BSRN sites
LAI/fAPAR: 80-100 sites
Land cover: 4300 points
Need to capitalize the information
16/29
Data sets for validation: measurements
Reference measurements
- interpretation by experts based on HSR images (land-cover, fire)
- quantitative measurements (albedo, LAI-fAPAR, LST&E , moisture)
- definition of the variable measured
- footprint and scaling
Empirical Transfer Function
Site
(3 km)
30-50 ESU/Site
-
Elementary Sampling
Unit (ESU)
(20-100 m)
10-20 PM/ESU
GPS located
Variable extraction and
averaging at the ESUlevel
High spatial
resolution
biophysical
variable map
Need for high spatial
resolution images
(Landsat/SPOT)
Point Measurement (PM)
(1-50 m)
DHP, LAI2000 …
17/29
Global validation
Metrics used:
Land cover : accuracy /user-producer Confusion matrix …
LAI-fAPAR: RMSE, weighed RMSE, biases …
Users need more information on the structure of uncertainties
18/29
Satellite data for intercomparison
- Definition of variables: LCCS …
- Spatial sampling
exhaustive (Land cover)
systematic
stratified (LAI, fAPAR, Albedo …)
- Spatial support area
need to get same projection / resolution
- Temporal support period
need to get synchronous / same resolution
Degradation of
original
characteristics
19/29
Global intercomparison
Land cover
20/29
Global intercomparison: LAI
• Temporal continuity
• Temporal consistency
• Smoothness of temporal evolution
• Statistical distributions
• Scatterplots
Current status
Level 4: operational validation
Level 3
Land cover
Biophysical Moisture
Level 2
Fire
Albedo
LST & E
Level 1
24/29
Operational Validation: land cover
Operational lc validation framework
Primary
validation
Comparative
validation
Updated
valid./change
Validation of
new products
Data reprocessing
Link to
regional datasets
In-situ
Legend translations
global
Product
synergy
Design based
sample of reference sites
Updated interpretations
LCCS-based
Interpretation Reference database:
(Regional
statistically robust, consistent,
Networks)
harmonized, updated, and accessible
Degree of usability and flexibility
Existing
global
LC products
Time
25/29
Operational Validation: Biophysical
OLIVE
User community
INFORMATION
Objectives
Results
References &
Contributors
1. Information to the
community
2. Stand-alone comparison
to existing products
by potential product
producer: Test Mode
3. Actual validation with
results visible by the
community & addition
of the product to the
community database:
Validation Mode
4. Addition of sites for
direct validation by
individual contributors
EVALUATION
Histograms/PFT
Scatterplots
Temporal continuity
Temporal consistency
Spatial consistency
Direct validation
Database descr.
How to proceed
Input Formats
Candidate
Product
Stand-alone
Report
Internal
DATABASE
Existing products
BELMANIP2-Valid
Candidate
Contribution
To DIRECT
Evaluation
criterions
Existing products
BELMANIP2-Test
DIRECT
26/29
Concluding remarks
• Very strong ECV context
• Need funding mechanisms for sustainable validation
activities: validation costs!!
• Importance of reference measurements:
– data sharing
– improved cooperation with existing/developing networks
– Availability of high spatial resolution images
• A lot of new products … and not all at the ultimate
validation level …. very challenging
• Mandatory for product improvement / combination
27/29
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