Rank one decomposition of a positive semi-definite matrix with inequality trace constraints

6 vues (au cours des 30 derniers jours)
Mingyang Sun
Mingyang Sun le 23 Fév 2021
Commenté : Matt J le 23 Fév 2021
Suppose there is a square matrix A and a positive semi-definite matrix , such that
Is there any ways I could do the rank one decomposition of matrix X, such that for ,
and keep the inquality constraints
Or at least hold for the most significant (largest eigenvalue) ?
Many thanks!

Connectez-vous pour répondre à cette question.

Réponse acceptée

Matt J
Matt J le 23 Fév 2021
Modifié(e) : Matt J le 23 Fév 2021
Is there any ways I could do the rank one decomposition of matrix X, such that
The obvious answer seems to be to test each k to see which satisfies
and choose any subset of them.
Or at least hold for the most significant (largest eigenvalue) ?
I don't know why you think this is a special case if your first requirement. This is not possible in general, as can be seen from the example A=diag([1,-4]) and X=diag(4,1). In this case, you can only satisfy the requirement with the least significant eigenvalue,
x1 =
2
0
x2 =
0
1
>> x1.'*A*x1, x2.'*A*x2
ans =
4
ans =
-4
  2 commentaires
Mingyang Sun
Mingyang Sun le 23 Fév 2021
Thank you for your relpying, is it possible that NO any satisfies inequality constraint? if so, is there a way to find one?
Matt J
Matt J le 23 Fév 2021
If trace(A*X)<=0, There will always be some satisfying the constraint. Once you have the , you can check each one, as I mentioned.

Connectez-vous pour commenter.

Plus de réponses (0)

Catégories

En savoir plus sur Eigenvalues dans Help Center et File Exchange

Tags

Produits


Version

R2020b

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by