Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I'm trying to fit data with MATLAB using the lsqcurvefit function, but I'm having some trouble. MATLAB gives me the following message.

Local minimum possible.

lsqcurvefit stopped because the size of the current step is less than
the selected value of the step size tolerance.

<stopping criteria details>

Optimization stopped because the norm of the current step, 5.578610e-021,
is less than options.TolX = 1.000000e-020.

Optimization Metric                                 Options
norm(step) =  5.58e-021                      TolX =  1e-020 (selected)

I've tried changing TolX and TolFun but the only thing that has changed, is the program now takes ages to finish.

The function I'm trying to fit is this:

function P = dIdV(delta, E, T)

%delta in eV
%E in eV
%T in K

gamma = 0.00001;

%IV curve
arr = zeros(size(E));
A = -E(length(E))*10:E(length(E))/750:E(length(E))*10;

for i=1:length(E)
    arr(i) = trapz(A, (FermiDirac(-E(i)+A, T) - FermiDirac(A,T)) .* SCDOS(-E(i)+A, delta, gamma));
end

%derivative
B = zeros(size(E));
points = 49;
for i=1:length(E)-points
    p = polyfit(E(i:i+points), arr(i:i+points), 1);
    B(floor(points/2)+i-1) = p(1);
end

%vector size back to original
for k=0:ceil(points/2)
    B(k+1) = B(floor(points/2));
    B(length(E)-k) = B(length(E)-ceil(points/2)-1);
end

P = B

FermiDirac is

function P=FermiDirac(E,T)

%E in eV
%T in Kelvin

kb=8.617343*10^(-5);

P=1./(1+exp(E./(kb.*T)));

SCDOS is

function N=SCDOS(E,delta,gamma)

%E in eV
%delta in eV
%gamma undefined

N=abs(real((E-1i*gamma)./sqrt((E-1i*gamma).^2-delta^2)));

What I'm calculating is the dI/dV curve for a superconductor at some temperature T. I'm supposed to get a value for the energy gap (delta) through fitting.

I would post my data here, but it's 10000 points long, so I'm not sure how to post it. I've tried filtering my data to smooth the curve, but to no avail. I've also tried using different intervals.

Any suggestions on how to make this work are welcome. Better ways to fit are also welcome.

EDIT: Here's a graph of the data. The blue line is the derivative of the data as calculated in the function above, the red line is the filtered data and the green line is the theoretical curve. I'm trying to fit the red one to the green one.

share|improve this question
    
How close is the initialization? Do you have any plots you can show? –  Raab70 Apr 28 '14 at 21:43
    
I added a link to the graph. The initialization should be very close. We expect a value of around 0.001. –  FatherNucleus Apr 28 '14 at 22:02
    
It appears that it fits the central part of the curve very well and just doesn't bring the curve down fast enough at the edges. Have you tried any other fitting functions? I only have experience with fminsearch and simulannealbnd. fminsearch gets caught in local minima while simulated annealing is very good at getting a global minima of a bounded problem. It seems that the function is caught in a local minimum as it mentions. –  Raab70 Apr 28 '14 at 23:59
    
The only other alternative to trying other fitting functions is to write your own method such as gradient descent. –  Raab70 Apr 28 '14 at 23:59
    
I think I'm gonna try those two. I'm not sure if fminsearch is gonna work though, because it's pretty much the same as lsqcurvefit except I'd still have to take the sum of the difference between the data points and the theoretical curve. –  FatherNucleus Apr 29 '14 at 2:36

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Browse other questions tagged or ask your own question.