Non Linear Eigenvalue problem

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Abhishek Gaikwad
Abhishek Gaikwad el 24 de Jul. de 2018
Editada: Christine Tobler el 8 de En. de 2025
I have been trying to solve a Non linear Eigenvalue problem using fsolve and Newton's iteration method and have not been successful. The matrix which I am looking to solve:
A=[2*w -300 0 0;sin(w/2) cos(w/2) -sin(w/2) cos(w/2); 2*cos(w/2) -2*sin(w/2) -cos(w/2) sin(w/2); 0 0 cos(w) -sin(w)]; (Found in a paper, using it as a practice case)
My Newton method code:
%Define intial values and tolerances for the variable
w0=0.1;
tol=2;
maxiter=1000;
w=w0;
wold=w0;
lambda=0.1;
%Start Iteration
for i=1:maxiter
%Define A and B
A=[2*w -300 0 0;sin(w/2) cos(w/2) -sin(w/2) cos(w/2); 2*cos(w/2) -2*sin(w/2) -cos(w/2) sin(w/2);
0 0 cos(w) -sin(w)];
B=[-2 0 0 0;-0.5*cos(w/2) 0.5*sin(w/2) 0.5*cos(w/2) -0.5*sin(w/2); sin(w/2) cos(w/2) -0.5*sin(w/2) -0.5*cos(w/2);
0 0 sin(w) cos(w)];
C=inv(B);
%Find Eigen value for the intermediate step
beta=eig(C*A);
epsilon=min(abs(beta));
%Update the variable
w=w0+epsilon;
err=abs(epsilon);
wold=w;
if(err<tol)
break;
end
end
Fsolve code
function fval=fun4evp(w)
A=[2*w -300 0 0;sin(w/2) cos(w/2) -sin(w/2) cos(w/2); 2*cos(w/2) -2*sin(w/2) -cos(w/2) sin(w/2);
0 0 cos(w) -sin(w)];
fval=det(A);
end
wsol=fsolve(@(w)fun4evp,0.1);
Thanks
  1 comentario
Gyan Swarup Nag
Gyan Swarup Nag el 16 de Mzo. de 2019
clear all;
% One root at a time
% Number of iteration
k=0; % Number of iteration
ks=300;
epsi=1*0.01;
w0=-1
while 1e-14<abs(epsi)
k=k+1;
A=[2*w0 -ks 0 0;
sin(w0/2) cos(w0/2) -sin(w0/2) -cos(w0/2);
2*cos(w0/2) -2*sin(w0/2) -cos(w0/2) sin(w0/2);
0 0 cos(w0) -sin(w0)];
B=-[2 0 0 0;
cos(w0/2)/2 -sin(w0/2)/2 -cos(w0/2)/2 sin(w0/2)/2;
-sin(w0/2) -cos(w0/2) sin(w0/2)/2 cos(w0/2)/2;
0 0 -sin(w0) -cos(w0)];
e = eig(A, B);
[dum,jj]=min(abs(e));
epsi=e(jj)
w0=w0+epsi
end
[w0 k]

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Respuestas (2)

Matt J
Matt J el 24 de Jul. de 2018
wsol=fsolve(@fun4evp,0.1),
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Abhishek Gaikwad
Abhishek Gaikwad el 24 de Jul. de 2018
Editada: Matt J el 24 de Jul. de 2018
!!!That's a bad mistake.Thanks. What about the Newton's method I am not sure about setting the tolerance. Currently, it is equal to the eigenvalue of C*A matrix which never goes to q very low value so i am able to solve the equation but the solution is incorrect.
Abhishek Gaikwad
Abhishek Gaikwad el 24 de Jul. de 2018
Editada: Abhishek Gaikwad el 24 de Jul. de 2018
The idea was to use the taylor series expansion and expand the matrix in the vicinity of w0 giving rise to epsilon which I found equal to the eigenvalue of the equation (A-lamba*B).

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Christine Tobler
Christine Tobler el 8 de En. de 2025
Editada: Christine Tobler el 8 de En. de 2025
Sorry for answering so long after the initial post. One option you could consider for solving a nonlinear eigenvalue problem is the Rational Krylov Toolbox for MATLAB: http://guettel.com/rktoolbox/examples/html/example_nlep.html.
(edit to fix the link)

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