1. Lunar Calibration activities
Status of GIRO and GLOD policy, infrastructure and study on inter-calibration
S. Wagner, B. Viticchiè, T. Hewison

2. GSICS Implementation of the ROLO model (GIRO)
Intellectual Property Rights cleared for ancillary data (solar and lunar spectra) + SPICE kernels:
Acknowledgement to the data and tool producers
Details about the composite lunar surface reflectance spectrum to be provided (ID numbers + weights in the composite)
IPRs cleared with Numerical Recipes routines:
Coded rewritten from scratch (GIRO v1.1.0)
Verified against version with Numerical Recipes (see following slides)
Next steps:
EUMETSAT’s internal procedure for Verification + Validation by end September 2016
Code analysis to check license compliance  by mid-October 2016
Preparation of a License Agreement to be agreed and signed by licensees = Condition for access to the GIRO + GLOD (following the policy presented at GSICS EP in May 2015)  by end September 2016
Set-up of an infrastructure for GIRO + GLOD on EUMETSAT’s website (web page with relevant information/documents + helpdesk service + link to GIRO + GLOD repositories)  by end 2016

3. Verification of the GIRO v1.1.0
Geometries  from MSG1 time series
Top panel: collection of “smooth” reflectance spectra organized in progressive number (along the X axis).
Central panel: difference between the reflectance spectra image in the top panel and the same image derived with the old version of the robust linear fitting as found in [NRC];
+ comparisons of a and b coeffs from linear fit (varying between the dotted lines)
Bottom panel: transect of the difference image (central panel) along the frequencies of the MSG1 VNIR bands which are calibrated using the GIRO (see the legend).

4. Verification of the GIRO v1.1.0

5. Verification of the GIRO v1.1.0

6. Verification of the GIRO v1.1.0

7. GSICS Lunar Observation Dataset
Contains Moon observations from all instruments using GIRO  please provide updates if required
Helps builds consensus on absolute calibration of GIRO
Helps develop inter-calibration methods
Timeline for distribution = same as the GIRO
Distribution to GIRO source code and GLOD upon signature of the license agreement  not blocked by the availability of the infrastructure

8. Coming up soon…
Interaction with USGS to document the traceability of the GIRO to the ROLO:
Definition of a benchmark for testing systematically the GIRO against the ROLO
Will be part of the GLOD
Could be used to test other models
Formalising the traceability
Preparation of a paper to be used as the reference to the GIRO for future publications
Mid-November = planned date for the study on the validation of SBAFs with lunar hyperspectral measurements.
Implementation of the inter-calibration scheme proposed at the GSICS annual meeting in 2016  prototype by end 2016

9. GSICS and GLOD usage policy
Please remember the policy…
So-far agreed by but still, it is in place and shall be followed.
Link under the Lunar Calibration Algorithm Work Area (GSICS wiki):

10. Second Lunar Calibration Workshop
Listing potential topics to be addressed…

11. Background First Lunar Calibration Workshop
Hosted by EUMETSAT
December 2014
Second Lunar Calibration Workshop (still to be confirmed)
Co-organised and hosted by the Chinese Meteorological Administration
Probably second half 2017
Topics still to be defined
Examples of Moon observations from instruments represented in First Lunar Calibration Workshop

12. Proposed main topics Measurement/observation campaigns:
Outcome of those campaigns (dataset, analysis, new model, better characterisation of existing model, etc.)
CMA
SELENE?
Experiments using CIMEL?
How to use those measurements?
Hyperspectral from space?  SCIAMACHY, HYPERION, OCO-2?
Improvement of the ROLO/GIRO: e.g. how to make use of all the measurements?
Inter-calibration using the Moon
Alternative methods: radiance maps of the Moon and their use for absolute calibration using Moon sites as invariant targets, new lunar references, etc.

13. Potential items to categorise…
ROLO/GIRO:
Interpretation of the results
Definition & Development of a common analysis tool (for GIRO input/output)
user requirements + implementation (by who?)
Workshop to compare the outcome?
Evolution of the ROLO/GIRO (Traceability)
What about the old question of the oversampling factor?
Inter-calibration:
Similarly, definition of a common tool for comparisons
Measurement/observation campaigns:
Commissioning/Validation data: MSG1, MSG3, AHI (Himawari 8 + 9), ABI, FY-2H, other? What could we make out of those data?