solve an inequality with LMI approach
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I would like to solve this inequality :
Q*A'+A*Q+L'*B'+B*L < 0
7 Comments
Amit
on 1 Feb 2014
solve for what? What the variable, what is known?
John D'Errico
on 1 Feb 2014
Obviously, the poster wants to solve for x. Oh, x is not in the equation? So we can choose x=0. Case closed.
Seriously, before you ask a question, think about what you mean by it. What are the unknowns here? What are the knowns? Are they arrays? vectors? Scalars? What size? What do you mean by "solve", as that is not a terribly meaningful thing in terms of an inequality, as there will generally be infinitely many solutions to such a problem.
Once you define your problem, it MIGHT be possible to help you, but until then, impossible. Even then, solving an inequality is, as I said, generally not a well-posed problem.
haifa
on 4 Feb 2014
Matt J
on 4 Feb 2014
And the inequality < 0 is element-wise, or is it the positive semi-definite ordering?
haifa
on 5 Feb 2014
Matt J
on 5 Feb 2014
Does L<0 mean that L(i,j)<0 for all i,j ?
haifa
on 5 Feb 2014
Answers (1)
Johan Löfberg
on 5 Feb 2014
Edited: Johan Löfberg
on 5 Feb 2014
With the MATLAB Toolbox YALMIP, and some SDP solver installed (such as SDPT3, SeDuMi, Mosek etc) it would be (you have not clearly said which variables are decision variables, I assume Q (psd) and L (arbitrary))
Q = sdpvar(n,n);
L = sdpvar(m,n,'full');
Constraints = [Q >=0, Q*A'+A*Q+L'*B'+B*L <= 0];
solvesdp(Constraints);
The model is ill-posed though as Q and L arbitrarily close to zero is feasible, which means trouble in practice. Dehomogenioze it, for instance
Constraints = [Q >=0, Q*A'+A*Q+L'*B'+B*L <= -eye(n)];
3 Comments
haifa
on 5 Feb 2014
haifa
on 5 Feb 2014
Johan Löfberg
on 5 Feb 2014
You have to install a solver (and YALMIP).
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on 5 Feb 2014
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