// GPC design for the problem discussed in Example 12.3.
// 12.4

exec('gpc_N.sci',-1);
exec('xdync.sci',-1);
exec('rowjoin.sci',-1);
exec('polsize.sci',-1);
exec('left_prm.sci',-1);
exec('t1calc.sci',-1);
exec('indep.sci',-1);
exec('seshft.sci',-1);
exec('makezero.sci',-1);
exec('move_sci.sci',-1);
exec('colsplit.sci',-1);
exec('clcoef.sci',-1);
exec('cindep.sci',-1);
exec('polmul.sci',-1);
exec('flip.sci',-1);

A=[1 -0.8]; dA=1; B=[0.4 0.6]; dB=1;
rho = 0.8; k = 1;
N1 = 0; N2 = 3; Nu = 2;

[K,KH1,KH2,Tc,dTc,Sc,dSc,R1,dR1] = ...
gpc_N(A,dA,B,dB,k,N1,N2,Nu,rho)