Optimization problem using Quasi Newton method

24 Jun 2018
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Updated 25 Jun 2018
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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)

12 Comments
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John D'Errico
John D'Errico on 24 Jun 2018
Why do you want to write your own optimizer in MATLAB? That is generally a bad idea, when optimization tools written by professionals are readily available.
christina
christina on 24 Jun 2018
I am using MATLABs fminunc. But my problem is, I can't seem to run the code.
Torsten
Torsten on 25 Jun 2018
The variable you want to return from "objfun" is called "J", not "f".
christina
christina on 25 Jun 2018
Ahh, sorry that was a typo here. I still have the same problem.
Torsten
Torsten on 25 Jun 2018
J = @(theta) objfun(x_t,c_mn,theta )
instead of
J = @(theta) objfuntc(x_t,c_mn,theta )
Torsten
Torsten on 25 Jun 2018
Edited: Torsten on 25 Jun 2018
Put this code in one file, name it "main.m", open it in MATLAB and run it.
function main
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)
end
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)*sin(2*pi*m*(t - n -2) + theta);
end
end
f = f + (x_t(t) - xs)^2 ;
end
end
christina
christina on 25 Jun 2018
Many thanks, that worked! But if I slightly change the objective function, it shows some error again. I don't understand why. Could you please help me with this?
function main
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 )
end
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)*sin(2*pi*m*(t - n -2) + theta );
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
end
Torsten
Torsten on 25 Jun 2018
Edited: Torsten on 25 Jun 2018
x_t and c_mn can be complex-valued ?
You will have to use
f = f + (x_t(t) - xs)*conj(x_t(t) - xs) ;
instead of
f = f + (x_t(t) - xs)^2 ;
Best wishes
Torsten.
christina
christina on 25 Jun 2018
It can be complex-valued.
Torsten
Torsten on 25 Jun 2018
I complemented my comment.
christina
christina on 25 Jun 2018
Thank you so much! That fixed everything.

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Asked:

christina
christina
on 24 Jun 2018

Commented:

christina
christina
on 25 Jun 2018

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