What is the easiest and accurate way in Matlab to find the eigenvalues and eigenvectors of a problem that do have some zero diagonal elements?

2 Ansichten (letzte 30 Tage)
Mehdi
Mehdi am 21 Jan. 2022
Kommentiert: Mehdi am 22 Jan. 2022
How to find the eigenvalues and eigenvectors of a problem that have some zero diagonal elements which dont have the usual form of the standard eigenvalue problem?
clc
clear
K=load('Ks.mat').K;
M=load('Ms.mat').M;
%Eig Method
[Qi,D] = eig(K,M);
omega=sort(real(sqrt(real(diag(D)))*(0.7588455916e-5/0.15176911835e-5)));
omega=
2.40257944339103
2.40257944339103
3.70603843883719
4.39253729249290
4.39253729249290
.
.
.
%LV Method
m=2000;
n=800;
M11=M(1:m,1:m);
M12=M(1:m,m+1:m+n);
M21=M(m+1:m+n,1:m);
M22=M(m+1:m+n,m+1:m+n);
K11=K(1:m,1:m);
K12=K(1:m,m+1:m+n);
K21=K(m+1:m+n,1:m);
K22=K(m+1:m+n,m+1:m+n);
Mt=inv(sqrtm(M11));
LV=1000000;
A11=Mt*K11*Mt;
A12 = LV*Mt*K12;
A21 = LV*K21*Mt;
A22 = K22;
AA =[A11, A12;A21, A22];
[Qi, B]=eig((AA));
C=sqrt(diag(B));
D=C*(0.7588455916e-5/0.15176911835e-5);
Omega=sort(real(D))
1.54228989861890
2.33587868130244
2.98460674608965
3.31683033853761
The results obtained from LV method are much close to the results of the problem which are as below:
1.5477
2.2752
2.9762
3.3202
Why eig is unable to give an accurate result??
How I can get these results through eig command or other way you recommend?
  2 Kommentare
Mehdi
Mehdi am 22 Jan. 2022
[Qi,D] = eig(K,M,'qz');
omega=sort(real(sqrt(real(diag(D)))*(0.7588455916e-5/0.15176911835e-5)));
2.40257944339103
2.40257944339103
3.70603843883719
4.39253729249290
4.39253729249290
4.43682500952759
.
.
.
Nothing changed!

Melden Sie sich an, um zu kommentieren.

Melden Sie sich an, um diese Frage zu beantworten.

Antworten (0)

Kategorien

Mehr zu Operating on Diagonal Matrices finden Sie in Help Center und File Exchange

Tags

Produkte


Version

R2021b

Community Treasure Hunt

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

Start Hunting!

Translated by