Tema 4J - Tema 4 CNA 1.Calculul conversiei ss2tf pentru...

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Tema 4 CNA 1.Calculul conversiei ss2tf pentru SISO function [r,p]=ss2tfSISO(A,B,C,D) p=poly(A); r=poly(A-B*C); r=r+(D-1)*p; 2.Calculul conversiei ss2tf pentru SIMO function [r,p]=ss2tfSIMO(A,B,C,D) p=poly(A); s=length(C); for i=1:s r(i,:)=poly(A-B(:,1)*C(i,:)); r(i,:)=r(i,:)+(D(i,1)-1)*p; end function [HH1,HH2]=Ex2b(H1,H2,H3) [m1,n1]=size(H1); [m2,n2]=size(H2); [m3,n3]=size(H3); Hd1=zeros(m2+m3,n2+n3); Hd1(1:m3,1:n3)=H3; Hd1(m3+1:m2+m3,n3+1:n2+n3)=H2; Hs1=zeros(m2+m3,n2+n3); Hs1(1:m3,n2+1:n2+n3)=H3; Hs1(m3+1:m2+m3,1:n2)=H2; HH1=inv(eye(m2+m3,n2+n3)-Hs1)*Hd1; Hd1=zeros(m1+m3,n1+n3); Hd1(1:m3,1:n3)=H3; Hd1(m3+1:m1+m3,n3+1:n1+n3)=H1; Hs1=zeros(m1+m3,n1+n3); Hs1(1:m3,n1+1:n1+n3)=H3; Hs1(m3+1:m1+m3,1:n1)=H1; HH2=inv(eye(m1+m3,n2+n3)-Hs1)*Hd1; function [HH1,HH2]=Ex2a(H1,H2,H3)

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[m1,n1]=size(H1); [m2,n2]=size(H2); [m3,n3]=size(H3); Hd1=zeros(m2+m3,n2+n3); Hd1(1:m2,1:n2)=H2; Hd1(m2+1:m2+m3,n2+1:n2+n3)=H3; Hs1=zeros(m2+m3,n2+n3); Hs1(1:m2,n3+1:n2+n3)=H2; Hs1(m2+1:m2+m3,1:n3)=H3; HH1=inv(eye(m2+m3,n2+n3)-Hs1)*Hd1;
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Tema 4J - Tema 4 CNA 1.Calculul conversiei ss2tf pentru...

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