Talk:Beginning with CVX
From Wikimization
lamda_W=eig(full(W))
Thanks a lot for all the ideas, they all are greats.
I think I'm wrong with this code, I would like to put theif - else - endwith the another constraits, inside the cxv_begin, but the CVX don't let me doing it. Some ideas?
I come work thinking on you idea. I think you idea it’s right and I’m making thinks wrong.
I have a dude.
The new code could be:
1º I calculate some variables, 2º with one if (with depends to variables point 1º) I select one linear constrint depending value of variables in 1º and I make all the: minimize…subjet to with apropiate constraints, convex and the one linear, if cvx_begin ... cvx_end else cvx_begin ... cvx_end end 3ºIf there is not solution STOP, if there is, go to 1º,
I’ve tried making this, I make: 1º, 2, 3º; return to 1º,2º, 3º And here the CVX says that there is not solution, that’s the reason for trying to keep inside the if – else.
My dude is, why CVX says there is not solution, it could be because the iteration (making steps 1-2-3) before is the correct. For explain (I know my English isn’t the best, and it’s hard for me to explain and for you to read)
One iteracion (steps 1, 2, 3) All well Save data = DATA1 One iteracion (steps 1, 2, 3) All well Save data = DATA2 One iteracion (steps 1, 2, 3) Wrong, no solution Correct data = DATA2
What do you think? Any idea?
Thanks a lot for all.
I don't know how to initialice Epsilon1 and Epsilon2. I'm trying different values.
Thanks a lot again.
Here is the new code:
%0)Initialization clear all; n=2; m=1; A_a=3*eye(2*n,2*n) B_a=4*eye(2*n,2*m) %1)1 W=eye(4) R=(zeros(2,4)) %2)2 H=W*A_a'+A_a*W-B_a*R-R'*B_a' lamda_W=min(eig(full(W))) lamda_H=max(eig(H)) Epsilon1=11; Epsilon2=0.1; if(lamda_W>=Epsilon1) if(lamda_H<=-Epsilon2), para=1 else para = 0 end else para =0 end %while para==0 %3)3 [v_W,D] = eig(full(W)) [v_H,D] = eig(full(H)) %4a)4a cvx_begin variables p1 p2 W(4,4) R(2,4); minimize (p1+p2); subject to W(1,1)<=p1; W(2,2)<=p1; W(1,1)>=Epsilon1; W(2,2)>=Epsilon1; W(3,3)==W(1,1); W(4,4)==W(2,2); R(1,1)>=-p2; R(1,1)<=p2; R(2,3)==R(1,1); R(1,2)>=-p2; R(1,2)<=p2; R(2,4)==R(1,2); H=W*A_a'+A_a*W-B_a*R-R'*B_a'; if (Epsilon1 - lamda_W) > (lamda_H + Epsilon2) v_W'*W*v_W - Epsilon1*eye(2*n) == semidefinite(2*n); else Epsilon2*eye(2*n) + v_H'*H*v_H == -semidefinite(2*n); end cvx_end R W=full(W) K=R/W