Hi everyone,
I was wondering if there's a more elegant and less computing-time consuming way to implement the following problem.
I'm performing a lsqnonlin fit of some objective function with let's say 4 parameters to some data. I now want to try to set single or combinations of parameters to 0, fit again and compare the results.
What I do in a run script is define a matrix describing which parameters should be set to 0 (0 in matrix) and which ones should be present (1 in matrix). The rows determine the parameter combinations and the columns the presence of the parameter. So, for example:
comb = [0,0,0,1; 0,1,0,1; 1,1,1,1];
for i = 1:size(comb,1)
combRow = comb(i, :);
[pars, chi2] = fitFcn(xdata, ydata, p0, combRow)
end
My function doing one fit looks like this:
function [pars, chi2] = fitFcn(xdata, ydata, p0, combRow)
Now I call lsqnonlin by
[pars, chi2] = lsqnonlin(@objFcn, p0, [], [], [], xdata, ydata);
And then the objective function is defined as:
function error = objFcn(p, x, y)
q(combRow == 0) = 0;
q(combRow ~= 0) = p(1:nnz(combRow));
fit = q(1)*x + q(2)*x^2 + q(3)*x^3 + q(4)*x^4;
error = fit - y;
end
Ok, so that's my algorithm. Keep in mind that I just generated a small example, because the real thing is hell-a-lot more complex. That's why I'm hoping that someone has an idea how to implement in a way that it's computed much faster. Because when I profile the objective function (in my real code) the lines
q(combRow == 0) = 0;
q(combRow ~= 0) = p(1:nnz(combRow));
need almost 20% of the time and that is just too much.
I'll appreciate any help and/or hint.
Cheers, Pascal
