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Why is the fitfunction from Matlab so slow? I'm trying to fit a gauss4 so I can get the means of the gaussians.

here's my plot,

enter image description here

I want to get the means from the blue data and red data.

I'm fitting a gaussian there but this function is really slow.

Is there an alternative?

    fa = fit(fn', facm', 'gauss4');

    acm = [fa.b1 fa.b2 fa.b3 fa.b4];

    a_cm = sort(acm, 'ascend');
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Please see this thread: mathworks.com/matlabcentral/newsreader/view_thread/37900 –  starbox Jul 30 '13 at 21:12
    
The best way to improve a nonlinear curve fit is to supply good starting values. You can also use a partitioned least squares, which will significantly reduce the size of the parameter space. –  user85109 Jul 30 '13 at 22:14

2 Answers 2

up vote 2 down vote accepted

I would apply some of the options available with fit. These include smoothing by setting SmoothingParam (your data is quite noisy, the alternative of applying a time domain filter may also help*), and setting the values of your initial parameter estimates, with StartPoint. Your fits may also not be converging because you set your tolerances (TolFun, TolX) too low, although from inspection of your fits that does not appear to be the case, in fact the opposite is likely, you probably want to increase the MaxIter and/or MaxFunEvals.

To figure out how to get going you can also try the Spectr-O-Matic toolbox. It requires Matlab 7.12. It includes a script called GaussFit.m to fit gauss4 to data, but it also uses the fit routine and provides examples on how to set and get parameters.

  • Note that smoothing will of course broaden your peaks, but you can subtract the contribution after the fact. The effect on the mean should not be deleterious, on the contrary, since you are presumably removing noise this should be more accurate.
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the main problem is that it is too slow. –  SamuelNLP Jul 30 '13 at 21:25
    
hehe, yeah... how slow? Applying some of these options may reduce the number of iterations required for convergence, accelerating things. –  Try Hard Jul 30 '13 at 21:27
    
the only alternative is to try a different fitting algorithm, fit uses Levenberg-Marquardt as default as would most non-linear fitting routines for handling this type of problem. In fact I don't know that you can do much better than L-M. –  Try Hard Jul 30 '13 at 21:30

In general functions will be faster if you apply it to a shorter series. Hence, if speedup is really important you could downsample.

For example, if you have a vector that you want to downsample by a factor 2: (you may need to make sure it fits first)

n = 2;
x = sin(0.01:0.01:pi);
x_downsampled = x(1:n:end)+x(2:n:end);

You will now see that x_downsampled is much smaller (and should thus be easier to process), but will still have the same shape. In your case I think this is sufficient. To see what you got try: plot(x)

Now you can simply process x_downsampled and map your solution, for example

f = find(x_downsampled == max(x_downsampled));
location_of_maximum = f * n;

Needless to say this should be done in combination with the most efficient options that the fit function has to offer.

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