I need to solve the following equation by using Newton-raphson method :
a. f(lambda)=-z'*inv(M)*inv(W)*Q*inv(W)*inv(M)*z,
W=inv(M)+lambda*Q
f'(lambda)=z'*inv(M)*inv(W)*(Q^2*inv(W)+inv(W)*Q^2)*inv(W)*inv(M)*z
Q and W are complex square matrices ,also z and M are metrices .
I wrote a code to find the root by Newton's method ,but the value of the root is complex ,but it must be real.I am not sure a bout the derivative of f(x).
I have another form to the function f(x) ,but I don't know if it's suitable to be solved by Newton's method in matlab,the other form is:
m gamma_k*|x_k|^2
b. f(lambda)=sum -----------------------
k=1 (1+lambda(gamma_k))^2
m (gamma_k)^2*|x_k|^2
f'(lambda)= 2* sum --------------------------
k=1 (1+lambda(gamma_k))^3
where gamma_k is sub indices , gamma is eigenvalue
m is total number of eigenvalues of T=(M)^(1/3)*Q*(M)^(1/2)
x=U'*M^(-1/2)*z ,U is eigen vectors of T.
Is this form in (b) of equation suitable to be solved by Newton Raphson method.
The code for form (a):
delta=1e-12;
epsilon=1e-12;
max1=500;
lambda=-1/(2*gamma);
for k=1:max1
zeta=cos(theta);
I=eye(n,n);
Q=zeta*I-p*p';
W=inv(M)+lambda*Q;
y1=2*z'*inv(M)*inv(W)*Q.^2*inv(W)*inv(M)*z;
y=-z'*inv(M)*inv(W)*Q*inv(W)*inv(M)*z;
p1=lambda-y/y1;
err=abs(p1-lambda);
lambda=p1
if (err<delta)
break
end
k
err
end
