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Himawari
GOES
2018
May
June
July
October
November
December
Studying the optical missions METimage and 3MI and the generation of appropriate test data.
How to extend the currently existing single scattering properties databases for frozen hydrometeors.
The level 1C algorithm will produce a geo-projected and re-gridded 3MI product.
Detailed instrument spectral response data for the GOME-2 flight model to be used in level-1b to level-2 processing.
Setting up of a service to provide well-calibrated measurements of drifting buoy sea surface temperature (SST).
Study implements the latest evolution of the Piece-Wise Linear (PWLR) Algorithm for IASI.
This study provided support for the definition of an algorithm baseline for 3MI.
Establishing the basis of an operational algorithm for the retrieval of CTP from the METimage imager Oxygen A-band channels.
Providing support to the development of cloud property retrieval algorithms from the 3MI instrument on EPS-SG.
Providing tools and analysis to support long-term, stable volcanic ash retrieval concepts.
Using the Moon as a reference for long term stability assessment of optical sensors.
This study continued previous work to provide instantaneous retrievals of aerosol load from SEVIRI observations.
Developing a sea-ice and marginal ice zone temperature retrieval and prototype processor for SLSTR.
Advancing the understanding of C-band scatterometer retrievals in cases of high and extreme winds.
Validation of ASCAT measurements over cold target regions.
Studying the impact of undetected clouds on image navigation quality assessment.
Development and validation of a new Ocean Colour Fluorescence Product from the OLCI instrument.
Generating a scientific, technical and operational requirements document for the Copernicus ocean colour vicarious calibration infrastructure.
Scientific review and development of Ocean Colour Bright Pixel Correction (OC-BPC).
Developing Ocean Colour products of Inherent Optical Properties for Copernicus Sentinel-3 OLCI.
Study by Dr Eric Bruning, Department of Geosciences, Texas Tech University.
The purpose of this study was to develop a Deep Convective Cloud Reference Model to increase the capabilities of the current vicarious calibration system for reflective solar bands.
Validating spectral band adjustment factors using lunar hyperspectral measurements.