How to update new value in next iteration?
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How can i update that (ending value) U1t or U2t in next iteration.
U1t and U2t will be changed U1 and U2
(1st iteration ending value -> 2nd iteration starting value).
S12t=6+2*1i;
S01t=10+5*1i;
U1=110;
U2=110;
R12 = 16.2+24*1i;
U0i=115;
R01= 15.75+31.2*1i;
dx01=106.125;
dx12=81;
U20=10;
zoruu=0.01;
iteration_number = 0;
while true
iteration_number = iteration_number + 1;
fprintf('Starting iteration #%d\n', iteration_number);
dQ12=dx12*U2.^2*10.^-6;
S12i=S12t-complex(0,dQ12);
DS12 =((real(S12i).^2+imag(S12i).^2)/U2.^2)*R12;
S12ii=DS12+S12i;
S12e=S12ii-complex(0,dQ12);
S01i=S12e+S01t;
dQ01=dx01*U1.^2*10.^-6;
S01ii=S01i-complex(0,dQ01);
DS01=((real(S01ii).^2+imag(S01ii).^2)/U1.^2)*R01;
dQ01i=dx01*U0i.^2*10.^-6;
S01ii2=S01ii+DS01;
S01iii=S01ii2-complex(0,dQ01i);
dU01i=(real(S01ii2)*real(R01)+imag(S01ii2)*imag(R01))./U0i;
dU01ii=(real(S01ii2)*imag(R01)-imag(S01ii2)*real(R01))./U0i;
U1t=sqrt((U0i-dU01i).^2+dU01ii.^2);
dU12i=(real(S12ii)*real(R12)+imag(S12ii)*imag(R12))./U1t;
dU12ii=(real(S12ii)*imag(R12)-imag(S12ii)*real(R12))./U1t;
U2t=sqrt((U1t-dU12i).^2+dU12ii.^2);
Y=U1t-U1;
H=U2t-U2;
if max(Y,H)<zoruu;
break;
end;
end
Iteration must end when max(Y,H)<0.01
Thank you
1 Comment
Walter Roberson
on 26 May 2013
Yes, that is what you programmed, that the iterations will end when that condition holds.
Accepted Answer
Walter Roberson
on 26 May 2013
After the assignment to H, assign
U1 = U1t;
U2 = U2t;
Unless, that is, you need the U1 value to be unchanged if the iteration should stop. If that is the case, put those two statements after the "end" for the "if"
0 Comments
More Answers (2)
Artur M. G. Lourenço
on 26 May 2013
Sorry if I misunderstood. It would be just that?
S12t=6+2*1i;
S01t=10+5*1i;
U1=110;
U2=110;
R12 = 16.2+24*1i;
U0i=115;
R01= 15.75+31.2*1i;
dx01=106.125;
dx12=81;
U20=10;
zoruu=0.01;
iteration_number = 0;
while true
iteration_number = iteration_number + 1;
fprintf('Starting iteration #%d\n', iteration_number);
dQ12=dx12*U2.^2*10.^-6;
S12i=S12t-complex(0,dQ12);
DS12 =((real(S12i).^2+imag(S12i).^2)/U2.^2)*R12;
S12ii=DS12+S12i;
S12e=S12ii-complex(0,dQ12);
S01i=S12e+S01t;
dQ01=dx01*U1.^2*10.^-6;
S01ii=S01i-complex(0,dQ01);
DS01=((real(S01ii).^2+imag(S01ii).^2)/U1.^2)*R01;
dQ01i=dx01*U0i.^2*10.^-6;
S01ii2=S01ii+DS01;
S01iii=S01ii2-complex(0,dQ01i);
dU01i=(real(S01ii2)*real(R01)+imag(S01ii2)*imag(R01))./U0i;
dU01ii=(real(S01ii2)*imag(R01)-imag(S01ii2)*real(R01))./U0i;
U1t=sqrt((U0i-dU01i).^2+dU01ii.^2);
dU12i=(real(S12ii)*real(R12)+imag(S12ii)*imag(R12))./U1t;
dU12ii=(real(S12ii)*imag(R12)-imag(S12ii)*real(R12))./U1t;
U2t=sqrt((U1t-dU12i).^2+dU12ii.^2);
Y=U1t-U1;
H=U2t-U2;
U1= U1t;
U2= U2t;
if max(Y,H)<zoruu;
break; end; end
1 Comment
Light
on 26 May 2013
3 Comments
Artur M. G. Lourenço
on 27 May 2013
Y=U1t-U1;
H=U2t-U2;
U1= U1t;
U2= U2t;
if max(Y,H)<zoruu;
break; end; end
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