Hello Ryo,
The example/method that you showed is converting a 4-d data to a 4-d data i.e. F and G are (x,y,z,t) and (x,y,rho,t). But in my case I computed the time trend of G variable so now it is 3-d (x,y,rho). So I want to map back time trend of G(x,y,rho) i.e. 3-d variable to G'(x,y,z).
use /data/rg/
rgsigmaslope.ncuse /data/rg/
neut.nc ! I took the l=@ave of density (x,y,z,t) to make it 3-d variable of (x,y,z) !
use /data/rg/
heat.nc ! I took the l=@ave of ocean heat (x,y,z,t) to make it 3-d variable of (x,y,z) !
sh gr slope[d=1],neut[d=2],heat[d=3]
GRID GRC1
name axis # pts start end subset
LONGITUDE LONGITUDE 360mr 20.5E 19.5E(379.5) full
LA
.5E 19.5E(379.5) full
LATITUDE LATITUDE 145 r 64.5S 79.5N full
AXDEN Z 118 r 16.81 28.51 full
normal T
GRID GFP1
name axis # pts start end subset
LON LONGITUDE 360 r 20.5E 19.5E(379.5) full
LAT LATITUDE 145 r 64.5S 79.5N full
LEV &
--
REGARDS
Saurabh Rathore
Research Scholar (PhD.)
Centre For Oceans, Rivers, Atmosphere & Land Science Technology
Indian Institute Of Technology, Kharagpur
contact :- 91- 8345984434