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Optimization problem using Quasi Newton method
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Given x_t and c_mn, the objective function is defined as:
I am trying to solve the above objective function for theta using quasi newton method. But there seem to be some problem with my code as it's not working. Could somebody please help me with this?
Following is my matlab code:
Code for defining objective function:
function f = objfuntc(x_t,c_mn,theta )
L = length(x_t );
[M,N] =size(c_mn);
f = 0 ;
for t = 1:L
xs = 0 ;
for n = 1:N
for m=1:M
xs = xs + c_mn(m,n)*exp(1i*2*pi*m*(t - n -2) + theta);
end
end
f = f + (x_t(t) - xs)^2 ;
end
Code for calling objective function:
x_t = rand(16,1 );
L = length(x_t);
a = 1;
M = L;
c = rand(M*L/a,1 );
c_mn=reshape(c,[M,L/a]);
J = @(theta) objfuntc(x_t,c_mn,theta )
theta0 = 10 ;
options = optimoptions('fminunc','Algorithm','quasi-newton ');
[theta, thetaval] = fminunc(J,theta0,options)
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