%% CR file for sFMR
%% Just for flow input definition of r, ie must use with flow,r;k_s
in "$MTT_CRS/r/slin.cr";
OPERATOR sRS;
% Ordinary RS port
% R component
FOR ALL gain_cause,r,rs,out_cause,inp,sinp,in_cause,temp,stemp
LET sRS(gain_cause,r,rs,out_cause,1,
inp,in_cause,1,
temp,effort,2,
sinp,in_cause,3,
stemp,effort,4
)
= lin(gain_cause,r,temp_cause,1,
inp,in_cause,1);
% Entropy flow
FOR ALL gain_cause,r,rs,out_cause,inp,sinp,in_cause,temp,stemp
LET sRS(gain_cause,r,rs,out_cause,2,
inp,in_cause,1,
temp,effort,2,
sinp,in_cause,3,
stemp,effort,4
)
= lin(gain_cause,r,temp_cause,1,
inp,in_cause,1)/temp;
% Sensitivity ports
FOR ALL gain_cause,r,rs,out_cause,inp,sinp,in_cause,temp,stemp
LET sRS(gain_cause,r,rs,out_cause,3,
inp,in_cause,1,
temp,effort,2,
sinp,in_cause,3,
stemp,effort,4
)
= slin(gain_cause,r,rs,temp_cause,2,
inp,in_cause,1,
sinp,in_cause,2
);
%% Sensitivity entropy flow
%% - flow in
FOR ALL gain_cause,r,rs,out_cause,inp,sinp,in_cause,temp,stemp
LET sRS(gain_cause,r,rs,out_cause,4,
inp,flow,1,
temp,effort,2,
sinp,flow,3,
stemp,effort,4
)
= 2*inp*sinp*r/temp
+ (inp^2)*rs/temp
- (inp^2)*r*temps/(temp^2);
%% - effort in
FOR ALL gain_cause,r,rs,out_cause,inp,sinp,in_cause,temp,stemp
LET sRS(gain_cause,r,rs,out_cause,4,
inp,effort,1,
temp,effort,2,
sinp,effort,3,
stemp,effort,4
)
= 2*inp*sinp/(r*temp)
- (inp^2)*rs/((r^2)*temp)
- (inp^2)*stemp/(r*temp^2);
END;