Download - Satellite Cloud Mask
Satellite monitoring of solar radiation
I Parallax Correction
II Cloud-Mask e Shadow-Mask
III Daily insolation map
IV Total water content (TWC) retrieve using multispectral techniques
Matteo Masotti
Freitag 24 juli 2009
Parallax correction in Ir10.8 m channelThe so-called parallax effect is a considerable geometrical effect associated with satellite measurements. It is more important even when we are observing high clouds, far from the nadir. This means that the location of clouds above European territory moves away from their real position. It depends on:
• Cloud top height (that's why we use 10.8 m Brightness Temperature information)
•Cloud coordinates
• Satellite viewing angle
IR brightness temperature from Sat and temperature profile given by numerical model are combined to extract information about cloud height and consequently the extent of parallax correction.
Freitag 24 juli 2009
Parallax 20090408 hh 2330 Corrected 10.8 m Image 20090408 hh 2330 Original 10.8 m Image
Colder clouds top height displacements are in the south-west direction in comparison to original image
Zoom CorrZoom Orig
Temp °C
Freitag 24 juli 2009
Cloud Mask Vis 0.8 m and Ir 10.8 m
Combination of informations provided by Vis 0.8 m (reflectance) and Ir 10.8 m (Brightness temperature) channels.
Comparison with clear sky threshold values from the previous 7 days.
Milano
Cloud Mask 16/04/2009 06:45 UTC
I
n
p
u
t
Freitag 24 juli 2009
Minimum of reflectance during
7 days and associated variance
Maximum of Bright. Temp.
During 7 days and associated variance
For each pixel
Cloud Mask thresholdVisible
Infrared
Freitag 24 juli 2009
Cloud Mask Vis 0.8 m e Ir 10.8 m
Cloud index (YES/NO) of every geolocated pixel and quality flag associated
Milano
Cloud Mask 16/04/2009 06:45 UTC
It is important for beam radiation information associated to PV plants and cocentrating solar systems.
Daily insolation map New solar plants planification
Output
Freitag 24 juli 2009
Shadowing Shadowing effect has to be taken into account in the estimate of daily insolation
Reflectance is strongly influenced by cloud shadow, specifically it is related to signal reduction and then to a lack of information over the associated pixel
In order to assign cloud cover classification over pixels, information about sun position (Solar zenith and azimuth angle) and cloud position need to be calculated.
Freitag 24 juli 2009
Shadowing effect is strongly related to solar zenith angle. The increase of solar zenith angle (sunrise and sunset) affects growing areas of the domain.
Daily insolation map
Freitag 24 juli 2009
Normalized clear sky day-light duration
0 completely Cloudy1 completely Clear sky
Spatial resolution 3.5 Km
Combination of informations from cloud mask (parallax corrected) considering shadow effects.
Goal:Producatbility of concentrating power plants
The differential water vapour absorption in 10.8 μm and 12.0 μm channels (split window channels), allows estimation of water vapour column between surface to top of atmosphere i.e., information about water vapour content is retrieved by differential trasmittance and then differential absorption coefficient in both channels . Water vapour is one of the most important absorber in the atmosphere and strongly influence the incoming solar radiation at the surface.
Inizialization of Radiative Transfer Model (RTM)
TWC (Total Water Content) Mask
High BT = High trasmittance = low atmospheric level observation
12.0 μm
10.8 μm
Curtesy of Eumetsat
Freitag 24 juli 2009
Thank you!
Freitag 24 juli 2009