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Geostationary
= GEOS =
The geos projection pictures how a geostationary satellite scans the earth at regular scanning angle intervals.
In order to project using the geos projection you can do the following: {{{ proj +proj=geos +h=35785831.0 }}}
The required argument h is the viewing point (satellite position) height above the earth.
Other arguments include:
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lon_0: the subsatellite longitude point -
sweep: the sweep angle axis of the viewing instrument. Can bexory(xis the default). ('''new in 4.8.0''')
The projection coordinate relate to the scanning angle by the following simple relation:
{{{ scanning_angle (radians) = projection_coordinate / h }}}
== Note on sweep ==
The viewing instrument on-board geostationary satellites described by this projection have a two-axis gimbal viewing geometry. This means that the different scanning positions are obtained by rotating the gimbal along a N/S axis (or ''y'') and a E/W axis (or ''x'').
In the image above, the outer-gimbal axis, or sweep-angle axis, is the N/S axis (y) while the inner-gimbal axis, or fixed-angle axis, is the E/W axis (x).
This example represents the scanning geometry of the Meteosat series satellite. However, the GOES satellite series use the opposite scanning geometry, with the E/W axis (x) as the sweep-angle axis, and the N/S (y) as the fixed-angle axis.
The sweep argument is used to tell proj.4 which on which axis the outer-gimbal is rotating. The possible values are x or y, x being the default. Thus, the scanning geometry of the Meteosat series satellite should take sweep as x, and GOES should take sweep as y.