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change_names.m
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change_names.m
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function [CC3]=change_names(CC3);
%% change names
APCP=strcmp(CC3(:,4),'APCP');
CC3(APCP,4)={'Precipitation'};
APCP=strcmp(CC3(:,4),'VO');
CC3(APCP,4)={'Vorticity (ralative)'};
APCP=strcmp(CC3(:,4),'DZDT');
CC3(APCP,4)={'Vertical vel.(w)'};
APCP=strcmp(CC3(:,4),'REFC');
CC3(APCP,4)={'Max dBz'};
APCP=strcmp(CC3(:,4),'TCDC');
CC3(APCP,4)={'Clouds Total'};
APCP=strcmp(CC3(:,4),'VIS');
CC3(APCP,4)={'Visibility'};
APCP=strcmp(CC3(:,4),'RDSP3');
CC3(APCP,4)={'Cloud Base Height'};
APCP=strcmp(CC3(:,4),'WVSP2');
CC3(APCP,4)={'Max wind speed 10m'};
APCP=strcmp(CC3(:,4),'SP');
CC3(APCP,4)={'Surface Pressure'};
APCP=strcmp(CC3(:,4),'CC');
CC3(APCP,4)={'Cloud Cover'};
APCP=strcmp(CC3(:,4),'geomet h');
CC3(APCP,4)={'Height Level'};
APCP=strcmp(CC3(:,4),'TOT_PREC');
CC3(APCP,4)={'Precipitation'};
APCP=strcmp(CC3(:,4),'ACPCP');
CC3(APCP,4)={'Conv. Precipitation'};
APCP=strcmp(CC3(:,4),'Total precipitation [m]');
CC3(APCP,4)={'Precipitation'};
APCP=strcmp(CC3(:,4),'TP');
CC3(APCP,4)={'Precipitation'};
APCP=strcmp(CC3(:,4),'BRTMP');
CC3(APCP,4)={'MSG simulation'};
APCP=strcmp(CC3(:,4),'DPT');
CC3(APCP,4)={'Dew point T'};
APCP=strcmp(CC3(:,4),'HCDC');
CC3(APCP,4)={'Clouds High'};
APCP=strcmp(CC3(:,4),'MCDC');
CC3(APCP,4)={'Clouds Medium'};
APCP=strcmp(CC3(:,4),'LCDC');
CC3(APCP,4)={'Clouds Low'};
APCP=strcmp(CC3(:,4),'SPFH');
CC3(APCP,4)={'Specific Humidity'};
APCP=strcmp(CC3(:,4),'HCC');
CC3(APCP,4)={'Clouds High'};
APCP=strcmp(CC3(:,4),'MCC');
CC3(APCP,4)={'Clouds Medium'};
APCP=strcmp(CC3(:,4),'LCC');
CC3(APCP,4)={'Clouds Low'};
APCP=strcmp(CC3(:,4),'POT');
CC3(APCP,4)={'Potential T'};
APCP=strcmp(CC3(:,4),'RH');
CC3(APCP,4)={'Relative Humidity'};
APCP=strcmp(CC3(:,4),'TMP');
CC3(APCP,4)={'Temperature'};
APCP=strcmp(CC3(:,4),'PRMSL');
CC3(APCP,4)={'MSL Pressure'};
APCP=strcmp(CC3(:,4),'PRES');
CC3(APCP,4)={'Pressure'};
APCP=strcmp(CC3(:,4),'HLCY');
CC3(APCP,4)={'Helicity'};
APCP=strcmp(CC3(:,4),'REFD');
CC3(APCP,4)={'Simulated CAPPI'};
APCP=strcmp(CC3(:,4),'GUST');
CC3(APCP,4)={'Wind Gust'};
APCP=strcmp(CC3(:,4),'HGT');
CC3(APCP,4)={'Height Level'};
APCP=strcmp(CC3(:,4),'MSL');
CC3(APCP,4)={'MSL Pressure'};
APCP=strcmp(CC3(:,4),'T');
CC3(APCP,4)={'Temperature'};
APCP=strcmp(CC3(:,4),'U');
CC3(APCP,4)={'UGRD'};
APCP=strcmp(CC3(:,4),'10U');
CC3(APCP,4)={'UGRD'};
APCP=strcmp(CC3(:,4),'10V');
CC3(APCP,4)={'VGRD'};
APCP=strcmp(CC3(:,4),'V');
CC3(APCP,4)={'VGRD'};
APCP=strcmp(CC3(:,4),'W');
CC3(APCP,4)={'Vertical Velocity'};
APCP=strcmp(CC3(:,4),'R');
CC3(APCP,4)={'Relative Humidity'};
APCP=strcmp(CC3(:,4),'Z');
CC3(APCP,4)={'GeoDynamic Height'};
APCP=strcmp(CC3(:,4),'Height Level');
CC3(APCP,4)={'GeoDynamic Height'};
APCP=strcmp(CC3(:,4),'2T');
CC3(APCP,4)={'Temperature'};
APCP=strcmp(CC3(:,4),'2D');
CC3(APCP,4)={'Dew point T'};
APCP=strcmp(CC3(:,4),'SSTK');
CC3(APCP,4)={'Sea Surface Temperature'};
APCP=strcmp(CC3(:,4),'SKT');
CC3(APCP,4)={'Skin Temperature'};
APCP=strcmp(CC3(:,4),'PV');
CC3(APCP,4)={'Potential Vorticity'};
APCP=strcmp(CC3(:,4),'PT');
CC3(APCP,4)={'Potential Temperature'};
APCP=strcmp(CC3(:,4),'Q');
CC3(APCP,4)={'Specific Humidity'};