# matlab — use of fminsearch with matrix

If I have a function for example :

``````k=1:100
func=@(s) sum(c(k)-exp((-z(k).^2./s)))
``````

where c and z are matrices with same size (for example 1x100) , is there any way to use fminsearch to find the "s" value?

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What is 'k' in this example? –  Bill Cheatham Feb 8 '13 at 18:21
I edited.thanks –  George Feb 8 '13 at 18:26
k is IRRELEVANT here. if c is a 1x100 vector, then c and c(k) are IDENTICAL. –  user85109 Feb 8 '13 at 18:36
So you want the s value that does WHAT? if you just wish to minimize a scalar objective, then just call fminsearch. WTP? –  user85109 Feb 8 '13 at 18:41
If I call fminsearch(func,[-0.5,1]),it gives me " Inputs must be a scalar and a square matrix." –  George Feb 8 '13 at 18:44

`fminsearch` needs an initial condition in the second parameter, not boundary conditions (though some of the options may support boundaries).

Just call

`````` fminsearch(func,-0.5)
``````

Where you saw examples passing in a vector, was a multidimensional search across multiple coefficients, and the vector was the initial value of each coefficient. Not limits on the search space.

You can also use

``````fminbnd(func, -0.5, 1);
``````

which performs constrained minimization.

But I think you should minimize the norm of the error, not the sum (minimizing the sum leads to a large error magnitude -- very very negative).

If you have the Optimization Toolbox, then `lsqnonlin` could be useful.

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I guess you would like to find `argmin` of your symbolic function, use matlab - argmax and argmin

OR

``````function I = argmax(X, DIM)
%ARGMAX    Argument of the maximum
%   For vectors, ARGMAX(X) is the indix of the smallest element in X. For matrices,
%   MAX(X) is a row vector containing the indices of the smallest elements from each
%   column. This function is not supported for N-D arrays with N > 2.
%
%   It is an efficient replacement to the use of [Y,I] = MAX(X,[],DIM);
%   See ARGMAX_DEMO for a speed comparison.
%
%   I = ARGMAX(X,DIM) operates along the dimension DIM (DIM can be
%   either 1 or 2).
%
%   When complex, the magnitude ABS(X) is used, and the angle
%   ANGLE(X) is ignored. This function cannot handle NaN's.
%
%   Example:
%       clc
%       disp('If X = [2 8 4; 7 3 9]');
%       disp('then argmax(X,1) should be [2 1 2]')
%       disp('while argmax(X,2) should be [2 3]''. Now we check it:')
%       disp(' ');
%       X = [2 8 4;
%            7 3 9]
%       argmax(X,1)
%       argmax(X,2)
%

%   \$Revision: 1.0 \$  \$Date: 2009/02/16 19:24:01\$

if nargin < 2,
DIM = 1;
end

if length(size(X)) > 2,
error('Function not provided for N-D arrays when N > 2.');
end

if (DIM ~=1 && DIM ~= 2),
error('DIM has to be either 1 or 2');
end

if any(isnan(X(:))),
error('Cannot handle NaN''s.');
end

if not(isreal(X)),
X = abs(X);
end

max_NOT_MIN = 1; % computes argmax
I = argmaxmin_mex(X, DIM, max_NOT_MIN);
``````
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