Eigenvector calculation

5 vues (au cours des 30 derniers jours)
Kamuran
Kamuran le 24 Jan 2011
Modifié(e) : Naveed Ahmed le 24 Oct 2023
I am trying to calculate the eigenvectors and eigenvalues for the following matrix (6,6) and I am getting complex eigenvector which I should not. I check the eigenvectors with maple and no complex eigenvector. Can anyone help me? ( complex numbers are not small. There on the same order or real ones)
-30.400000000000009 20.099689437998496 16.988854381999836 -12.099689437998487 13.411145618000168 -7.999999999999998
-1.105572809000086 -3.811145618000166 4.683281572999748 1.105572809000084 -3.577708763999662 2.705572809000083
4.494427190999916 -0.683281572999748 -7.388854381999832 3.577708763999663 2.894427190999915 -2.894427190999915
-2.894427190999916 2.894427190999916 3.577708763999664 -7.388854381999831 -0.683281572999745 4.494427190999913
2.705572809000084 -3.577708763999665 1.105572809000085 4.683281572999745 -3.811145618000171 -1.105572809000080
-7.999999999999998 13.411145618000166 -12.099689437998482 16.988854381999822 20.099689437998467 -30.399999999999970
You can see that the first 3 row almost a mirror image of last 3 (or vice versa). Actually it has to be to same, but due to around offs coming from calculation creates 10^-13 differences. If I make those changes and makes them excatly mirror images no complex eigenvectors (which is little odd)
  5 commentaires
Afficher 3 commentaires plus anciens
Naveed Ahmed
Naveed Ahmed le 31 Juil 2023
Modifié(e) : Naveed Ahmed le 24 Oct 2023
and the matrix should always be 'Square' to get the eigean vectors.
Torsten
Torsten le 31 Juil 2023
@Naveed Ahmed
How should A*x = lambda*x hold if A were not square ?

Connectez-vous pour commenter.

Connectez-vous pour répondre à cette question.

Réponse acceptée

Ned Gulley
Ned Gulley le 25 Jan 2011
When I run the eig command (see help here: eig) I don't get any complex eigenvectors. Maybe the problem is data entry?
Assuming your matrix is in a, then
[v,d] = eig(a)
v =
-0.7059 -0.6622 0.4830 0.3203 -0.0000 0.4644
0.0294 -0.1076 0.4654 -0.4804 0.5774 0.4425
0.0294 0.2235 0.2239 0.3203 -0.0000 -0.2974
0.0294 -0.2235 -0.2239 -0.4804 0.5774 -0.2974
0.0294 0.1076 -0.4654 0.3203 -0.0000 0.4425
-0.7059 0.6622 -0.4830 -0.4804 0.5774 0.4644
d =
-40.0000 0 0 0 0 0
0 -31.1332 0 0 0 0
0 0 -2.4668 0 0 0
0 0 0 0.0000 0 0
0 0 0 0 -0.0000 0
0 0 0 0 0 -9.6000
  3 commentaires
Afficher 1 commentaire plus ancien
Bruno Luong
Bruno Luong le 25 Jan 2011
You might try free host servers, but as I have pointed out earlier, the smallest eigen values are 1e-17 of the largest, so any small perturbation of matrix elements could easily make smallest eigen value becomes complex. That's not a surprise to me. You might need to make some safeguard code against this issue.
Christine Tobler
Christine Tobler le 31 Juil 2023
Yes, you can attach a .mat file (look for the little "attachment button" when editing the post - like a paperclip).
For this small matrix, here's a way you can display it so that there are no differences:
for ii=1:size(A, 1)
s(ii) = string(sprintf('%.20e ', A(ii, :)));
end
disp("Acopy = [" + join(s, ";"+newline) + "]")
Run this code where you have the original matrix A, then use isequal(A, Acopy) to verify it matches exactly.

Connectez-vous pour commenter.

Plus de réponses (0)

Catégories

En savoir plus sur Linear Algebra dans Help Center et File Exchange

Tags

Produits

Community Treasure Hunt

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

Start Hunting!

Translated by