Grid to GeoTIF
var=radius.ll new=big3 argR="-R280/287/-9/-3" argR="-R0/360/-90/90" argI="-I0.04" date echo "Blockmean" gmt blockmean $var $argR $argI > out echo "sphereinterpolate" cat out | gmt sphinterpolate $argR $argI -Gtest.nc echo "gdal translate" gdal_translate -of GTiff -b 1 -a_srs 60300.prj NETCDF:test.nc $new.tif
Global
Global ICQ resolution to bin sizes [degrees]
ICQ Q Value |
Vertices |
Bin Size [deg] |
512 |
1,579,014 |
0.041 |
256 |
396,294 |
0.164 |
128 |
99,846 |
0.649 |
64 |
25,350 |
2.556 |
32 |
6,534 |
9.917 |
Topography
/bin/cp -f SHAPE.TXT tmp vi tmp 1,$s/D/E/g ZZ convertLatLon tmp > radius.ll
Sigmas
convertLatLon tmp 1 > sigma.ll
Number of Images
Slope
Albedo
/bin/cp -f SHAPEA.TXT tmp vi tmp 1,$s/D/E/g ZZ convertLatLon tmp 1 > albedo.ll
Regional
Run backplanesGMT (which is in ORExSPCsupport) (or backplanesISIS)
Topography
Sigmas
Number of Images
Slope
Albedo
Photometric Data
This includes emission angle, incidence angle and phase angle.
Run phasei (located in ORExSPCsupport)
Make Pretties
gmt begin GMT_cont gmt set GMT_THEME cookbook gmt grdcontour test.nc gmt end show #gmt grdcontour test.nc -C10 -A50 gmt begin GMT_img gmt set GMT_THEME cookbook #gmt makecpt -Crainbow gmt grdimage test.nc -JM6i -B -BWSnE gmt colorbar -DJTC -Bxa -By+lm gmt end show gmt begin GMT_img gmt makecpt -Crainbow gmt set GMT_THEME cookbook gmt grdimage test.nc $argR -JM6i -B -BWSnE #gmt colorbar -DJTC -I0.4 -Bxa -By+lm gmt colorbar -DJTC -Bxa -By+lm gmt end show